Anti-sars-cov-2 fusion peptides

ABSTRACT

Anti-SARS-CoV-2 fusion peptides are provided. The anti-SARS-CoV-2 fusion peptides include peptide sequences corresponding to the sequence of the SARS-CoV-2 fusion complex heptad repeat domain HR2 and having at least one artificial mutation. The anti-SARS-CoV-2 fusion peptides may be 39-mers, such as peptides #121 (SEQ ID NO: 2) and #125 (SEQ ID NO: 5). These peptides may competitively bind to SARS-CoV-2 and prevent either membrane mediated SARS-CoV-2 fusion, endocytosis-mediated viral entry, or both. The anti-SARS-CoV-2 fusion peptides may be administered to a subject in need thereof to inhibit or prevent SARS-CoV-2 cellular entry.

CROSS-REFERENCE TO RELATED APPLICATION

This application claims the benefit of U.S. Provisional Patent Application No. 63/093,157, filed on Oct. 16, 2020.

INCORPORATION BY REFERENCE OF MATERIAL SUBMITTED IN COMPUTER READABLE FORM

The Applicants hereby incorporate by reference the sequence listing contained in the ASCII text filed titled 32087_34 Sequence_Listing_ST25.txt, created Apr. 27, 2021, and having 3 KB of data.

BACKGROUND 1. Field

The disclosure of the present patent application relates to biotechnology, and particularly to anti-SARS-CoV-2 fusion peptides and methods of using said peptides.

2. Description of the Related Art

The SARS-CoV-2 pandemic that began in 2019 has posed a significant threat worldwide. In the past two decades, three coronaviruses have emerged and endangered public health, including the severe acute respiratory syndrome coronavirus (SARS CoV), Middle East respiratory syndrome CoV (MERS-CoV), and SARS-CoV-2. The SARS-CoV-2 pandemic has necessitated the discovery of new therapeutics to combat the increasing number of infected humans. While a large number of drug repurposing studies have been conducted, the need for more and better therapeutic options for treating SARS-CoV-2 remains.

Thus, anti-SARS-CoV-2 fusion peptides solving the aforementioned problems is desired.

SUMMARY

The anti-SARS-CoV-2 fusion peptides include a set of peptides designed by modification or mutation of a wild type SARS-CoV-2 fusion protein. The anti-SARS-CoV-2 fusion peptides are capable of inhibition of SARS-CoV-2 infection in cells and may be used to prevent and/or treat SARS-CoV-2 infection in a subject in need thereof. The anti-SARS-CoV-2 fusion peptides may prevent membrane-mediated viral entry, endocytosis-mediated viral entry, or prevent both membrane-mediated viral entry and endocytosis-mediated viral entry. The anti-SARS-CoV-2 fusion peptides may also be used as reagents for SARS-CoV-2 inhibition assays as a standard or as reference inhibitors.

In an embodiment, the anti-SARS-CoV-2 fusion peptides are 39-mer amino acid sequences including at least one mutation of the wild type SARS-CoV-2 Heptad Repeat Doman (HR2) sequence. In a further embodiment, the anti-SARS-CoV-2 fusion peptides may be 39-mer amino acid sequences including 1, 2, 3, 4, 5, or 6 mutations of the wild type SARS-CoV-2 HR2 sequence.

An embodiment of the present subject matter is directed to a pharmaceutical composition including one or more of the anti-SARS-CoV-2 fusion peptides and a pharmaceutically acceptable carrier.

An embodiment of the present subject matter is directed to a method of making a pharmaceutical composition including mixing one or more of the anti-SARS-CoV-2 fusion peptides under sterile conditions with a pharmaceutically acceptable carrier and preservatives, buffers, or propellants to create the pharmaceutical composition; and providing the pharmaceutical composition in a form suitable for daily, weekly, or monthly administration.

An embodiment of the present subject matter is directed to compositions including one or more of the anti-SARS-CoV-2 fusion peptides and one or more expression systems. The expression system may be a viral based expression system, a plasmid-based expression system, or any other expression system suitable for causing or enhancing expression of the anti-SARS-CoV-2 fusion peptides in a bacterium, yeast, or mammalian cell. The expression system may include a promoter sequence and DNA or RNA encoding one or more of the anti-SARS-CoV-2 fusion peptides.

An embodiment of the present subject matter is directed to methods of inhibiting SARS-CoV-2 infection, preventing SARS-CoV-2 transmission, and/or treating a SARS-CoV-2 infection, including administering to a subject in need thereof a therapeutically effective amount of a pharmaceutical composition according to the present subject matter. In a further embodiment, the methods of inhibiting SARS-CoV-2 infection may include preventing SARS-CoV-2 infection of a cell.

An embodiment of the present subject matter is directed to methods of using the anti-SARS-CoV-2 fusion peptides as reference agents to evaluate inhibition by other candidates against SARS-CoV-2. These methods may include using the SARS-CoV-2 fusion peptides as reference agents in Cell-Cell Fusion Assays, Viral Plaque Formation Assays, Viral RNA Quantitation Assays, or the like.

These and other features of the present subject matter will become readily apparent upon further review of the following specification.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 depicts a graph of the effect of the anti-SARS-CoV-2 fusion peptides on SARS-CoV-2 S-mediated membrane fusion. The graph depicts the effect of each peptide on the co-culture fusion assay using DSP as a reporter. Peptides were tested at different concentrations, and additional proteins other than reporters (DSPs) transduced into the effector and target cells are indicated below the graph. The relative cell fusion was represented as the DSP value (RL activity measured in RLU) normalized to that of the control assay with DMSO alone. (*: p<0.05, **: p<0.01).

FIG. 2 depicts a graph of the effect of anti-SARS-CoV-2 fusion peptides on SARS-CoV-2 S-mediated viral infection of Calu-3 cells with SARS-CoV-2 S pseudotyped VSV viral particles. The relative infectivity was represented as the RLU normalized to that of the control assay with DMSO alone. (*: p<0.05, **: p<0.01).

FIG. 3A depicts a graph of the effect of anti-SARS-CoV-2 fusion peptides on TMPRSS2-independent viral infection (VeroE6 cells). The relative infectivity was represented as the RLU normalized to that of the control assay with DMSO alone.

FIG. 3B depicts a graph of the effect of anti-SARS-CoV-2 fusion peptides on TMPRSS2-dependent viral infection (VeroE6-TMPRSS2 cells with SARS-CoV-2 s pseudotyped VSV viral particles. The relative infectivity was represented as the RLU normalized to that of the control assay with DMSO alone.

FIG. 4 depicts a graph of the effect of anti-SARS-CoV-2 fusion peptides on SARS-CoV-2 infection in Calu-3 cells. Calu-3 cells were challenged with SARS-CoV-2 at an MOI of 0.01 in the presence of the peptides at the indicated doses. The amount of internalized viral RNA was quantified by real-time PCR at 24 h after infection.

FIGS. 5A-5B depict 5(A) Vero E6 cells infected with SARS-CoV-2 where SARS-CoV-2 was incubated with each peptide prior to infection (prior to SARS-CoV-2 infection, SARS-CoV-2 was incubated with each peptide (10 μM) for 30 min at 37° C. and then added to Vero E6 cells and each well was overlaid with DMEM/F12 containing 2% Oxoid agar and TPCK (1 μg/mL)-treated trypsin, cultured for 3 days, stained with crystal violet, and then plaques were counted); and 5(B) a graph showing the effect of anti-SARS-CoV-2 fusion peptides on SARS-CoV-2 infection.

FIGS. 5C-5D depict 5(C) Vero E6 cells infected with SARS-CoV-2 where SARS-CoV-2 was incubated with peptide #125 (SEQ ID NO: 5) (prior to infection SARS-CoV-2 was pre-incubated with three-fold serially diluted #125 peptide (SEQ ID NO: 5) (n=3) for 30 min at 37° C., the vero E6 cells were infected with the mixture of the virus and peptide, incubated for 3 days in DMEM/F12 containing 2% Oxoid agar and TPCK (1 μg/mL)-treated trypsin, each well was stained with crystal violet, and then plaques were counted; and 5(D) a graph of the inhibitory effect of #125 peptide (SEQ ID. NO: 5) on SARS-CoV-2 infection in Vero E6 cells.

Similar reference characters denote corresponding features consistently throughout the attached drawings.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

An anti-SARS-CoV-2 fusion peptide include can be synthesized by modification or mutation of a wild type SARS-CoV-2 fusion protein. The present teachings are directed to a plurality of anti-SARS-CoV-2 fusion peptides. The anti-SARS-CoV-2 fusion peptides are capable of inhibition of SARS-CoV-2 infection in cells and may be used to prevent and/or treat SARS-CoV-2 infection in a subject in need thereof. The anti-SARS-CoV-2 fusion peptides may prevent membrane-mediated viral entry, endocytosis-mediated viral entry, or prevent both membrane-mediated viral entry and endocytosis-mediated viral entry. The anti-SARS-CoV-2 fusion peptides may also be used as reagents for SARS-CoV-2 inhibition assays as a standard or as reference inhibitors.

In an embodiment, the anti-SARS-CoV-2 fusion peptide includes a 39-mer amino acid sequence including at least one mutation of the wild type SARS-CoV-2 Heptad Repeat Doman (HR2) sequence. In a further embodiment, the anti-SARS-CoV-2 fusion peptide may include a 39-mer amino acid sequences including 1, 2, 3, 4, 5, or 6 mutations of the wild type SARS-CoV-2 HR2 sequence.

Throughout this application, the term “about” may be used to indicate that a value includes the standard deviation of error for the composition, device or method being employed to determine the value.

The use of the term “or” in the specification and claim(s) is used to mean “and/or” unless explicitly indicated to refer to alternatives only or the alternatives are mutually exclusive, although the disclosure supports a definition that refers to only alternatives and “and/or.”

As used in this specification and claim(s), the words “comprising” (and any form of comprising, such as “comprise” and “comprises”), “having” (and any form of having, such as “have” and “has”), “including” (and any form of including, such as “includes” and “include”) or “containing” (and any form of containing, such as “contains” and “contain”) are inclusive or open-ended and do not exclude additional, un-recited elements or method steps. In certain cases, the term “comprising” may be replaced with “consisting essentially of” or “consisting of.”

The use of the word “a” or “an” when used herein in conjunction with the term “comprising” in the claims and/or the specification may mean “one,” but it is also consistent with the meaning of “one or more,” “at least one,” and “one or more than one.”

The phrase “pharmaceutically acceptable,” as used herein, refers to molecular entities and compositions that do not produce an allergic or similar untoward reaction when administered to a human.

The term “subject,” as used herein, means a mammal, including but not limited to a human being.

As used herein, the term “providing” an agent is used to include “administering” the agent to a subject.

As used herein, a “carrier” includes any and all solvents, dispersion media, vehicles, coatings, diluents, isotonic and absorption delaying agents, buffers, carrier solutions, suspensions, colloids, excipients, and the like.

An embodiment of the present subject matter is directed to a pharmaceutical composition comprising one or more of the anti-SARS-CoV-2 fusion peptides and a pharmaceutically acceptable carrier.

An embodiment of the present subject matter is directed to a method of making a pharmaceutical composition including mixing one or more of the anti-SARS-CoV-2 fusion peptides with a pharmaceutically acceptable carrier. For example, the method of making a pharmaceutical composition can include mixing an anti-SARS-CoV-2 fusion peptide under sterile conditions with a pharmaceutically acceptable carrier with preservatives, buffers, and/or propellants to create the pharmaceutical composition.

An embodiment of the present subject matter is directed to a pharmaceutical composition including one or more of the anti-SARS-CoV-2 fusion peptides. To prepare the pharmaceutical composition, one or more of the anti-SARS-CoV-2 fusion peptides, as the active ingredient, is intimately admixed with a pharmaceutically acceptable carrier according to conventional pharmaceutical compounding techniques. Carriers are inert pharmaceutical excipients, including, but not limited to, binders, suspending agents, lubricants, flavorings, sweeteners, preservatives, dyes, and coatings. In preparing compositions in oral dosage form, any of the pharmaceutical carriers known in the art may be employed. For example, for liquid oral preparations, suitable carriers and additives include water, glycols, oils, alcohols, flavoring agents, preservatives, coloring agents, and the like. Further, for solid oral preparations, suitable carriers and additives include starches, sugars, diluents, granulating agents, lubricants, binders, disintegrating agents, and the like.

The present compositions can be in unit dosage forms such as tablets, pills, capsules, powders, granules, ointments, sterile parenteral solutions or suspensions, metered aerosol or liquid sprays, drops, ampules, auto-injector devices or suppositories, for oral parenteral, intranasal, sublingual or rectal administration, or for administration by inhalation or insufflation. One or more of the anti-SARS-CoV-2 fusion peptides can be mixed under sterile conditions with a pharmaceutically acceptable carrier and, if required, any needed preservatives, buffers, or propellants. The composition can be presented in a form suitable for daily, weekly, or monthly administration. The pharmaceutical compositions herein will contain, per dosage unit, e.g., tablet, capsule, powder, injection, teaspoonful, suppository and the like, an amount of the active ingredient necessary to deliver an effective dose. A therapeutically effective amount of an anti-SARS-CoV-2 fusion peptides or an amount effective to treat a disease, such as a coronavirus infection, may be determined initially from the Examples described herein and adjusted for specific targeted diseases using routine methods.

An embodiment of the present subject matter is directed to compositions including one or more of the anti-SARS-CoV-2 fusion peptides and one or more expression systems. The expression system may be a viral based expression system, a plasmid-based expression system, or any other expression system suitable for causing or enhancing expression of the anti-SARS-CoV-2 fusion peptides in a bacterium, yeast, or mammalian cell. The expression system may include a promoter sequence and DNA or RNA encoding one or more of the anti-SARS-CoV-2 fusion peptides.

An embodiment of the present subject matter is directed to methods of using the anti-SARS-CoV-2 fusion peptides as reference agents to evaluate inhibition by other candidates against SARS-CoV-2. These methods may include using the anti-SARS-CoV-2 fusion peptides as reference agents in Cell-Cell Fusion Assays, Viral Plaque Formation Assays, Viral RNA Quantitation Assays, or the like.

The anti-SARS-CoV-2 fusion peptides can be administered to a subject in need thereof. In an embodiment, the anti-SARS-CoV-2 fusion peptides can be administered to a subject in need thereof to inhibit SARS-CoV-2 infection, prevent SARS-CoV-2 transmission, and/or treat a SARS-CoV-2 infection.

An embodiment of the present subject matter is directed to a method of inhibiting SARS-CoV-2 infection, preventing SARS-CoV-2 transmission, and/or treating a SARS-CoV-2 infection, comprising administering to a subject in need thereof a therapeutically effective amount of the pharmaceutical composition according to the present subject matter.

The anti-SARS-CoV-2 fusion peptides or pharmaceutical compositions thereof can be administered to a subject by any suitable route. For example, the compositions can be administered nasally, rectally, intracisternally, intraperitoneally, transdermally (as by powders, ointments, or drops), and/or parenterally. As used herein, “parenteral” administration refers to modes of administration other than through the gastrointestinal tract, which include intravenous, intramuscular, intraperitoneal, intrasternal, intramammary, intraocular, intrapulmonary, intrathecal, subcutaneous and intraarticular injection and infusion. Surgical implantation may also be contemplated, including, for example, embedding a composition of the disclosure in the body such as, for example, in a tissue, in the abdominal cavity, under the splenic capsule, brain, or in the cornea.

Accordingly, the route of administration can include intranasal administration, oral administration, inhalation administration, subcutaneous administration, transdermal administration, intradermal administration, intra-arterial administration with or without occlusion, intracranial administration, intraventricular administration, intravenous administration, buccal administration, intraperitoneal administration, intraocular administration, intramuscular administration, implantation administration, topical administration, intratumor administration, and/or central venous administration.

The viral CoV genome encodes four structural proteins: spike (S), membrane (M), envelope (E), and nucleocapsid (N). Viral membrane fusion is an essential step of virus replication, which is accomplished by the viral spike and leads to the fusion of the viral and cell membranes. The CoV S protein is composed of two subunits, S1 and S2. S1 binds the host cell ACE2 receptor. Cleavage of S1 by host cell proteases exposes a highly hydrophobic membrane-binding domain of the S2 subunit. The S2 subunit contains two domains, heptad repeat domain 1 (HR1) and heptad repeat domain 2 (HR2). HR1 forms a homotrimer exposing three hydrophobic pockets on its surface, which host the HR2 domain during the active fusion process. An HR domain is composed of tandem repeat motifs of seven residues (named a-g). Of the seven residues, the first (a) and fourth (d) are predominantly hydrophobic or bulky.

The anti-SARS-CoV-2 fusion peptides are designed by modification or mutation of a surface structure protein of SARS-CoV-2 in the virus S2 spike region. The heptad repeat regions (HR1 and HR2) of S2 interact to help in fusion of SARS-CoV-2 with cell membranes. The anti-SARS-CoV-2 fusion peptides S2 HR2 derivatives were optimized to interfere with the proper mechanism of HR1-HR2 interactions.

Optimization included in silico modeling of potential mutations in HR2 and the selection of peptides with the highest changes in affinity and stability. (See Example 1, Table 1, for a list of tested mutations) The mutations that gave rise to the selected peptides were then combined in a further in silico energy maturation study. The resulting anti-SARS-CoV-2 fusion peptides possessed up to six mutations compared to the wild type sequence. (See Example 2, Table 2, for examples of possible combinations of mutations)

In an embodiment, the anti-SARS-CoV-2 peptide includes peptide #121 (SEQ ID NO. 2: HVLGDISGINASVVQIQKEIDRLNEVAKNLHESLIYLQE), peptide #122 (SEQ ID NO. 3: VDLGDISGIRAMVVRIQKEMRLNEVAKNLNESLIDLQE), peptide #123 (SEQ ID NO. 4: LRLGDISGIRARVVRIQKEIHRLNEVAKNLNESLIDLQN), or peptide #125 (SEQ ID NO. 5: HRLRQIRGIRARVVQIQKEIWRLNEVAKLLNESLIYLQE).

The following examples illustrate the present subject matter.

Example 1 Mutations of HR2

HR2 amino acid mutations were tested in silico to find the most potent candidate that can bind potently with HR1. (Schrodinger Suite 2020, NY, USA). Protein structures were optimized using the protein preparation wizard, followed by energy minimization and mutation. To ensure reproducibility, the experiment was repeated three times. For this purpose, stepwise mutations were carried out as follows.

Every residue in HR2 was mutated to all of the potential candidates, comprising the twenty known essential amino acids. The mutations were evaluated based on the changes in binding free energy as well as the solvated peptide stability. Table 1 shows the results of initial single amino acids mutations. In Table 1, the Residue # is listed as R #, the original amino acid is listed as “WT”, and the mutated amino acid is listed as “MUT”. The “Δ Affinity” implies the changes in binding energy (Kcal/mol) after each mutation. The “Δ Stability” implies the changes in solvation stability after each mutation.

TABLE 1 Single Amino Acid Mutations in HR2 R # WT MUT Δ Aff. Δ Stab. 1164 VAL ILE 0 5.26 1164 VAL GLN −0.08 −44 1164 VAL GLY −0.19 25.92 1164 VAL GLU 0.94 −22.5 1164 VAL CYS 0.2 −2.67 1164 VAL ASP 1.77 −25.7 1164 VAL SER −0.13 0.85 1164 VAL LYS −0.74 −6.68 1164 VAL PRO −0.29 42.53 1164 VAL HIE 0.3 −9.16 1164 VAL ASN −0.1 −36.71 1164 VAL HIP −1.37 −11.26 1164 VAL THR −0.14 −10.93 1164 VAL HID −0.04 −11.42 1164 VAL TRP 0.23 −7.29 1164 VAL PHE 0.07 0.13 1164 VAL ALA −0.05 4.21 1164 VAL MET −0.11 −6.33 1164 VAL LEU 0.02 9.25 1164 VAL ARG 1.75 −35.88 1164 VAL TYR 0.06 −9.2 1164 VAL ILE 0 5.26 1164 VAL GLN −0.08 −44 1164 VAL GLY −0.19 25.92 1164 VAL GLU 0.94 −22.5 1164 VAL CYS 0.2 −2.67 1164 VAL ASP 1.77 −25.7 1164 VAL SER −0.13 0.85 1164 VAL LYS −0.74 −6.68 1164 VAL PRO −0.29 42.53 1164 VAL HIE 0.3 −9.16 1164 VAL ASN −0.1 −36.71 1164 VAL HIP −1.37 −11.26 1164 VAL THR −0.14 −10.93 1164 VAL HID −0.04 −11.42 1164 VAL TRP 0.23 −7.29 1164 VAL PHE 0.07 0.13 1164 VAL ALA −0.05 4.21 1164 VAL MET −0.11 −6.33 1164 VAL LEU 0.02 9.25 1164 VAL ARG 1.75 −35.88 1164 VAL TYR 0.06 −9.2 1164 VAL ILL 0 5.26 1164 VAL GLN −0.08 −44 1164 VAL GLY −0.19 25.92 1164 VAL GLU 0.94 −22.5 1164 VAL CYS 0.2 −2.67 1164 VAL ASP 1.77 −25.7 1164 VAL SER −0.13 0.85 1164 VAL LYS −0.74 −6.68 1164 VAL PRO −0.29 42.53 1164 VAL HIE 0.3 −9.16 1164 VAL ASN −0.1 −36.71 1164 VAL HIP −1.37 −11.26 1164 VAL THR −0.14 −10.93 1164 VAL HID −0.04 −11.42 1164 VAL TRP 0.23 −7.29 1164 VAL PHE 0.07 0.13 1164 VAL ALA −0.05 4.21 1164 VAL MET −0.11 −6.33 1164 VAL LEU 0.02 9.25 1164 VAL ARG 1.75 −35.88 1164 VAL TYR 0.06 −9.2 1164 VAL ILE 0 5.26 1164 VAL GLN −0.08 −44 1164 VAL GLY −0.19 25.92 1164 VAL GLU 0.94 −22.5 1164 VAL CYS 0.2 −2.67 1164 VAL ASP 1.77 −25.7 1164 VAL SER −0.13 0.85 1164 VAL LYS −0.74 −6.69 1164 VAL PRO −0.29 42.53 1164 VAL HIE 0.3 −9.16 1164 VAL ASN −0.1 −36.71 1164 VAL HIP −1.37 −11.26 1164 VAL THR −0.14 −10.93 1164 VAL HID −0.04 −11.42 1164 VAL TRP 0.23 −7.29 1164 VAL PHE 0.07 0.13 1164 VAL ALA −0.05 4.21 1164 VAL MET −0.11 −6.33 1164 VAL LEU 0.02 9.25 1164 VAL ARG 1.75 −35.88 1164 VAL TYR 0.06 −9.2 1165 ASP ILE −0.76 −5.37 1165 ASP GLN −0.44 −4.15 1165 ASP GLY −0.74 −2.59 1165 ASP GLU 0.04 −3.36 1165 ASP CYS −0.79 −3.24 1165 ASP SER −0.77 −4.57 1165 ASP LYS −1.34 −1.03 1165 ASP PRO −0.88 11.78 1165 ASP HIE −0.64 −5.74 1165 ASP ASN −0.73 −0.83 1165 ASP HIP −1.45 −6.16 1165 ASP VAL −0.75 −5.22 1165 ASP THR −0.78 −6.62 1165 ASP HID −0.73 −2.07 1165 ASP TRP −0.68 −2.53 1165 ASP PHE −0.67 −0.93 1165 ASP ALA −0.76 −0.76 1165 ASP MET −0.82 −4.79 1165 ASP LEU −0.79 −4.7 1165 ASP ARG −1.48 −3.22 1165 ASP TYR −0.41 −1.39 1165 ASP ILE −0.76 −5.37 1165 ASP GLN −0.44 −4.15 1165 ASP GLY −0.74 −2.59 1165 ASP GLU 0.04 −3.36 1165 ASP CYS −0.79 −3.24 1165 ASP SER −0.77 −4.57 1165 ASP LYS −1.34 −1.03 1165 ASP PRO −0.88 11.78 1165 ASP HIE −0.64 −5.74 1165 ASP ASN −0.73 −0.83 1165 ASP HIP −1.45 −6.16 1165 ASP VAL −0.75 −5.22 1165 ASP THR −0.78 −6.62 1165 ASP HID −0.73 −2.07 1165 ASP TRP −0.68 −2.53 1165 ASP PHE −0.67 −0.93 1165 ASP ALA −0.76 −0.76 1165 ASP MET −0.82 −4.79 1165 ASP LEU −0.79 −4.7 1165 ASP ARG −1.48 −3.22 1165 ASP TYR −0.41 −1.39 1166 LEU ILE 0.02 0.71 1166 LEU GLN 0.43 9.37 1166 LEU GLY 0 19.92 1166 LEU GLU 2.3 16.54 1166 LEU CYS 0.02 14.41 1166 LEU ASP 1.68 20.42 1166 LEU SER 0.22 16.78 1166 LEU LYS −1.97 23.62 1166 LEU PRO −0.11 25.93 1166 LEU HIE 0.03 15.42 1166 LEU ASN −0.27 14.1 1166 LEU HIP −1.25 7.74 1166 LEU VAL 0.04 5.46 1166 LEU THR 0.17 10.98 1166 LEU HID 0.33 9.07 1166 LEU TRP 0.3 5.39 1166 LEU PHE 0.14 5.29 1166 LEU ALA 0 17.28 1166 LEU MET 0.06 −7.89 1166 LEU ARG −0.49 7.55 1166 LEU TYR 0.17 5.15 1166 LEU ILE 0.02 0.71 1166 LEU GLN 0.43 9.37 1166 LEU GLY 0 19.92 1166 LEU GLU 2.3 16.54 1166 LEU CYS 0.02 14.41 1166 LEU ASP 1.68 20.42 1166 LEU SER 0.22 16.78 1166 LEU LYS −1.97 23.62 1166 LEU PRO −0.11 25.93 1166 LEU HIE 0.03 15.42 1166 LEU ASN −0.27 14.1 1166 LEU HIP −1.25 7.74 1166 LEU VAL 0.04 5.46 1166 LEU THR 0.17 10.98 1166 LEU HID 0.33 9.07 1166 LEU TRP 0.3 5.39 1166 LEU PHE 0.14 5.29 1166 LEU ALA 0 17.28 1166 LEU MET 0.06 −7.89 1166 LEU ARG −0.49 7.55 1166 LEU TYR 0.17 5.15 1167 GLY ILE −1.06 6.91 1167 GLY GLN −0.66 3.47 1167 GLY GLU −0.18 4.83 1167 GLY CYS −0.17 5.7 1167 GLY ASP 0.73 7.42 1167 GLY SER −0.08 6.04 1167 GLY LYS −0.39 6.24 1167 GLY PRO −0.03 46.27 1167 GLY HIE 1.03 5.26 1167 GLY ASN 0.36 4.09 1167 GLY HIP 1.31 −2.02 1167 GLY VAL −0.76 14.01 1167 GLY THR −0.84 4.03 1167 GLY HID −0.08 −1.79 1167 GLY TRP 0.12 3.58 1167 GLY PHE −4.27 2.42 1167 GLY ALA −0.07 3.06 1167 GLY MET −1.13 1.94 1167 GLY LEU −1.03 −1.79 1167 GLY ARG −0.65 −2.59 1167 GLY TYR −0.03 2.72 1167 GLY ILE −1.06 6.91 1167 GLY GLN −0.66 3.46 1167 GLY GLU −0.18 4.85 1167 GLY CYS −0.17 5.7 1167 GLY ASP 0.73 7.42 1167 GLY SER −0.08 6.04 1167 GLY LYS −0.39 6.24 1167 GLY PRO −0.03 46.27 1167 GLY HIE 1.03 5.26 1167 GLY ASN 0.36 4.09 1167 GLY HIP 1.31 −2.01 1167 GLY VAL −0.76 14.01 1167 GLY THR −0.84 4.03 1167 GLY HID −0.08 −1.79 1167 GLY TRP 0.12 3.58 1167 GLY PHE −4.27 2.42 1167 GLY ALA −0.07 3.06 1167 GLY MET −1.13 1.94 1167 GLY LEU −1.03 −1.79 1167 GLY ARG −0.65 −2.56 1167 GLY TYR −0.03 2.72 1168 ASP ILE −0.68 −0.71 1168 ASP GLN −1.89 −8.18 1168 ASP GLY −0.43 3.32 1168 ASP GLU 0.17 −6.06 1168 ASP CYS −0.68 0.56 1168 ASP SER −0.53 −0.15 1168 ASP LYS −0.48 4.75 1168 ASP PRO −0.63 2.82 1168 ASP HIE −0.41 2.5 1168 ASP ASN −0.58 −5.8 1168 ASP HIP −0.75 −1.65 1168 ASP VAL −0.47 0.63 1168 ASP THR −0.55 −0.72 1168 ASP HID −0.4 0.47 1168 ASP TRP −0.26 0.29 1168 ASP PHE 0.05 3.8 1168 ASP ALA −0.47 2.09 1168 ASP MET −0.78 −7.36 1168 ASP LEU −0.85 −0.12 1168 ASP ARG −1.26 −5.35 1168 ASP TYR −2.01 1.41 1168 ASP ILE −0.68 −0.71 1168 ASP GLN −1.89 −8.18 1168 ASP GLY −0.43 3.32 1168 ASP GLU 0.17 −6.06 1168 ASP CYS −0.68 0.56 1168 ASP SER −0.53 −0.15 1168 ASP LYS −0.48 4.75 1168 ASP PRO −0.63 2.82 1168 ASP HIE −0.41 2.5 1168 ASP ASN −0.58 −5.8 1168 ASP HIP −0.75 −1.65 1168 ASP VAL −0.47 0.63 1168 ASP THR −0.55 −0.72 1168 ASP HID −0.4 0.47 1168 ASP TRP −0.24 0.97 1168 ASP PHE 0.05 3.8 1168 ASP ALA −0.47 2.09 1168 ASP MET −0.78 −7.36 1168 ASP LEU −0.85 −0.12 1168 ASP ARG −1.26 −5.35 1168 ASP TYR −2.06 1.41 1169 ILE GLN 0.2 8.82 1169 ILE GLY 0 22.65 1169 ILE GLU 2.74 19.63 1169 ILE CYS 0.13 14.61 1169 ILE ASP 2.32 24.75 1169 ILE SER 0.1 18.59 1169 ILE LYS −2.24 29.09 1169 ILE PRO −0.11 25.54 1169 ILE HIE −0.18 10.88 1169 ILE ASN 0.12 15.84 1169 ILE HIP −1.83 7.55 1169 ILE VAL −0.01 2.67 1169 ILE THR 0.2 11.86 1169 ILE HID 0.37 5.88 1169 ILE TRP −0.09 103.59 1169 ILE PHE −0.15 0.02 1169 ILE ALA 0.02 17.6 1169 ILE MET −0.02 −8.6 1169 ILE LEU −0.09 −2.84 1169 ILE ARG −2.47 6.88 1169 ILE TYR −0.17 15.35 1169 ILE GLN 0.2 8.82 1169 ILE GLY 0 22.65 1169 ILE GLU 2.74 19.63 1169 ILE CYS 0.13 14.61 1169 ILE ASP 2.32 24.75 1169 ILE SER 0.1 18.59 1169 ILE LYS −2.24 29.09 1169 ILE PRO −0.11 25.54 1169 ILE HIE −0.18 10.88 1169 ILE ASN 0.12 15.84 1169 ILE HIP −1.83 7.55 1169 ILE VAL −0.01 2.67 1169 ILE THR 0.2 11.86 1169 ILE HID 0.37 5.88 1169 ILE TRP −0.09 103.59 1169 ILE PHE −0.15 0.02 1169 ILE ALA 0.02 17.6 1169 ILE MET −0.02 −8.6 1169 ILE LEU −0.09 −2.84 1169 ILE ARG −2.47 6.88 1169 ILE TYR −0.17 15.35 1170 SER ILE 0.21 −0.6 1170 SER GLN 0.38 1.65 1170 SER GLY −0.02 2.5 1170 SER GLU 3.9 5.43 1170 SER CYS −0.02 0.02 1170 SER ASP 0.86 9.19 1170 SER LYS −0.53 1.83 1170 SER PRO −0.03 86.83 1170 SER HIE 0.65 1.71 1170 SER ASN −0.08 0.26 1170 SER HIP −0.71 −3.29 1170 SER VAL 0.09 0.57 1170 SER THR −0.02 0.27 1170 SER HID −0.21 −3.32 1170 SER TRP 0.3 3.53 1170 SER PHE 0.06 2.19 1170 SER ALA 0.02 0.99 1170 SER MET 0.02 −3.21 1170 SER LEU 0.14 −3.56 1170 SER ARG −0.65 −5.84 1170 SER TYR 0.91 2.03 1170 SER ILE 0.21 −0.6 1170 SER GLN 0.38 1.65 1170 SER GLY −0.02 2.5 1170 SER GLU 3.9 5.43 1170 SER CYS −0.02 0.02 1170 SER ASP 0.86 9.19 1170 SER LYS −0.53 1.83 1170 SER PRO −0.03 86.83 1170 SER HIE 0.65 1.71 1170 SER ASN −0.08 0.26 1170 SER HIP −0.71 −3.29 1170 SER VAL 0.09 0.57 1170 SER THR −0.02 0.27 1170 SER HID −0.21 −3.32 1170 SER TRP 0.3 3.53 1170 SER PHE 0.06 2.19 1170 SER ALA 0.02 0.99 1170 SER MET 0.02 −3.21 1170 SER LEU 0.14 −3.56 1170 SER ARG −0.65 −5.86 1170 SER TYR 0.91 2.03 1171 GLY ILE −0.02 1.8 1171 GLY GLN 0.37 −1.35 1171 GLY GLU 0.53 3.45 1171 GLY CYS −0.05 1.27 1171 GLY ASP 0.54 9.71 1171 GLY SER −0.04 3.33 1171 GLY LYS 10.74 3.6 1171 GLY PRO −0.56 30.26 1171 GLY HIE 1.64 2.79 1171 GLY ASN 0.35 4.89 1171 GLY HIP 1.71 0.43 1171 GLY VAL −0.01 1.6 1171 GLY THR −0.04 −5.02 1171 GLY HID −0.02 0.49 1171 GLY TRP −2.29 7.51 1171 GLY PHE −0.03 5.38 1171 GLY ALA −0.02 2.78 1171 GLY MET 0.12 −0.07 1171 GLY LEU −0.02 1.68 1171 GLY ARG −0.65 −5.55 1171 GLY TYR −0.96 5.77 1171 GLY ILE −0.02 1.8 1171 GLY GLN 0.37 −1.35 1171 GLY GLU 0.52 3.49 1171 GLY CYS −0.05 1.27 1171 GLY ASP 0.54 9.71 1171 GLY SER −0.04 3.33 1171 GLY LYS 10.75 3.6 1171 GLY PRO −0.56 30.26 1171 GLY HIE 1.64 2.8 1171 GLY ASN 0.35 4.89 1171 GLY HIP 1.7 0.37 1171 GLY VAL −0.01 1.6 1171 GLY THR −0.04 −5.02 1171 GLY HID −0.02 0.49 1171 GLY TRP −2.33 7.56 1171 GLY PHE −0.02 5.4 1171 GLY ALA −0.02 2.78 1171 GLY MET 0.12 −0.06 1171 GLY LEU −0.03 1.68 1171 GLY ARG −0.65 −5.53 1171 GLY TYR −0.96 5.77 1171 GLY ILE −0.02 1.8 1171 GLY GLN 0.37 −1.35 1171 GLY GLU 0.52 3.49 1171 GLY CYS −0.05 1.27 1171 GLY ASP 0.54 9.71 1171 GLY SER −0.04 3.33 1171 GLY LYS 10.75 3.6 1171 GLY PRO −0.56 30.26 1171 GLY HIE 1.64 2.8 1171 GLY ASN 0.35 4.89 1171 GLY HIP 1.7 0.37 1171 GLY VAL −0.01 1.6 1171 GLY THR −0.04 −5.02 1171 GLY HID −0.02 0.49 1171 GLY TRP −2.35 7.56 1171 GLY PHE −0.02 5.4 1171 GLY ALA −0.02 2.78 1171 GLY MET 0.12 −0.06 1171 GLY LEU −0.02 1.68 1171 GLY ARG −0.65 −5.47 1171 GLY TYR −0.96 5.77 1172 ILE GLN −0.14 7.07 1172 ILE GLY −0.18 20.21 1172 ILE GLU 0.76 10.38 1172 ILE CYS −0.04 14.19 1172 ILE ASP 1.14 23.26 1172 ILE SER −0.12 18.65 1172 ILE LYS −0.84 20.64 1172 ILE PRO −0.04 42.28 1172 ILE HIE 0 7.2 1172 ILE ASN −0.36 14.28 1172 ILE HIP −0.99 5.54 1172 ILE VAL 0 5.18 1172 ILE THR 0.1 9.41 1172 ILE HID 0.3 11.9 1172 ILE TRP 0.07 5.39 1172 ILE PHE −0.09 9.7 1172 ILE ALA −0.12 15.81 1172 ILE MET 0.42 −4.21 1172 ILE LEU −0.03 4.13 1172 ILE ARG −1.05 2.62 1172 ILE TYR −0.18 10.32 1172 ILE GLN −0.14 7.07 1172 ILE GLY −0.18 20.21 1172 ILE GLU 0.76 10.38 1172 ILE CYS −0.04 14.19 1172 ILE ASP 1.14 23.26 1172 ILE SER −0.12 18.65 1172 ILE LYS −0.84 20.64 1172 ILE PRO −0.04 42.28 1172 ILE HIE 0 7.2 1172 ILE ASN −0.36 14.28 1172 ILE HIP −0.99 5.54 1172 ILE VAL 0 5.18 1172 ILE THR 0.1 9.41 1172 ILE HID 0.3 11.9 1172 ILE TRP 0.07 5.39 1172 ILE PHE −0.09 9.7 1172 ILE ALA −0.12 15.81 1172 ILE MET 0.42 −4.21 1172 ILE LEU −0.03 4.13 1172 ILE ARG −1.05 2.62 1172 ILE TYR −0.18 10.32 1173 ASN ILE 0 −4.92 1173 ASN GLN 0.01 −5.55 1173 ASN GLY −0.05 −3.06 1173 ASN GLU 0.88 −0.26 1173 ASN CYS −0.13 −4.72 1173 ASN ASP 0.72 0.24 1173 ASN SER −0.12 −2.74 1173 ASN LYS −0.58 −3.68 1173 ASN PRO −0.08 15.96 1173 ASN HIE 0.17 −3.87 1173 ASN HIP −1.09 −8.64 1173 ASN VAL −0.07 −3.8 1173 ASN THR −0.11 −3.65 1173 ASN HID 0.04 −7.6 1173 ASN TRP 0.36 −6.38 1173 ASN PHE 0.39 −6.17 1173 ASN ALA −0.08 −3.06 1173 ASN MET −0.08 −8.04 1173 ASN LEU 0.06 −6.34 1173 ASN ARG −0.79 −12.67 1173 ASN TYR 0.61 −6.77 1173 ASN ILE 0 −4.92 1173 ASN GLN 0.01 −5.55 1173 ASN GLY −0.05 −3.06 1173 ASN GLU 0.88 −0.26 1173 ASN CYS −0.13 −4.72 1173 ASN ASP 0.72 0.24 1173 ASN SER −0.12 −2.74 1173 ASN LYS −0.58 −3.68 1173 ASN PRO −0.08 15.96 1173 ASN HIE 0.17 −3.87 1173 ASN HIP −1.09 −8.64 1173 ASN VAL −0.07 −3.8 1173 ASN THR −0.11 −3.65 1173 ASN HID 0.04 −7.6 1173 ASN TRP 0.36 −6.38 1173 ASN PHE 0.39 −6.17 1173 ASN ALA −0.08 −3.06 1173 ASN MET −0.08 −8.04 1173 ASN LEU 0.06 −6.34 1173 ASN ARG −0.79 −12.67 1173 ASN TYR 0.61 −6.77 1174 ALA ILE 0.03 1.77 1174 ALA GLN 0.6 14.37 1174 ALA GLY −0.06 7.02 1174 ALA GLU 14.4 20.32 1174 ALA CYS −0.1 7.58 1174 ALA ASP 2.58 30.89 1174 ALA SER 0.25 3.57 1174 ALA LYS −1.42 44.97 1174 ALA PRO 0.03 24.59 1174 ALA HIE 1.01 98.29 1174 ALA ASN −13.68 32.46 1174 ALA HIP −1.42 95.28 1174 ALA VAL −0.18 22.44 1174 ALA THR −0.9 14.58 1174 ALA HID 1.13 95.86 1174 ALA TRP −0.55 57.47 1174 ALA PHE 0.27 68.41 1174 ALA MET −2.6 17.32 1174 ALA LEU −0.85 31.41 1174 ALA ARG −2.47 13.19 1174 ALA TYR 0.04 72.77 1174 ALA ILE 0.03 1.77 1174 ALA GLN 0.6 14.37 1174 ALA GLY −0.06 7.02 1174 ALA GLU 14.4 20.32 1174 ALA CYS −0.1 7.58 1174 ALA ASP 2.58 30.89 1174 ALA SER 0.25 3.57 1174 ALA LYS −1.42 44.97 1174 ALA PRO 0.03 24.59 1174 ALA HIE 1.01 98.29 1174 ALA ASN −13.68 32.46 1174 ALA HIP −1.42 95.28 1174 ALA VAL −0.18 22.44 1174 ALA THR −0.9 14.58 1174 ALA HID 1.13 95.86 1174 ALA TRP −0.55 57.47 1174 ALA PHE 0.27 68.41 1174 ALA MET −2.6 17.32 1174 ALA LEU −0.85 31.41 1174 ALA ARG −2.47 13.19 1174 ALA TYR 0.04 72.77 1174 ALA ILE 0.03 1.77 1174 ALA GLN 0.6 14.37 1174 ALA GLY −0.06 7.02 1174 ALA GLU 14.4 20.32 1174 ALA CYS −0.1 7.58 1174 ALA ASP 2.58 30.89 1174 ALA SER 0.25 3.57 1174 ALA LYS −1.42 44.97 1174 ALA PRO 0.03 24.59 1174 ALA HIE 1.01 98.29 1174 ALA ASN −13.68 32.46 1174 ALA HIP −1.42 95.28 1174 ALA VAL −0.18 22.44 1174 ALA THR −0.9 14.58 1174 ALA HID 1.13 95.86 1174 ALA TRP −0.55 57.47 1174 ALA PHE 0.27 68.41 1174 ALA MET −2.6 17.32 1174 ALA LEU −0.85 31.41 1174 ALA ARG −2.47 13.19 1174 ALA TYR 0.04 72.77 1174 ALA ILE 0.03 1.77 1174 ALA GLN 0.6 14.37 1174 ALA GLY −0.06 7.02 1174 ALA GLU 14.4 20.32 1174 ALA CYS −0.1 7.58 1174 ALA ASP 2.58 30.89 1174 ALA SER 0.25 3.57 1174 ALA LYS −1.42 44.97 1174 ALA PRO 0.03 24.59 1174 ALA HIE 1.01 98.29 1174 ALA ASN −13.68 32.46 1174 ALA HIP −1.42 95.28 1174 ALA VAL −0.18 22.44 1174 ALA THR −0.9 14.58 1174 ALA HID 1.13 95.86 1174 ALA TRP −0.55 57.47 1174 ALA PHE 0.27 68.41 1174 ALA MET −2.6 17.32 1174 ALA LEU −0.85 31.41 1174 ALA ARG −2.47 13.19 1174 ALA TYR 0.04 72.77 1175 SER ILE −1.05 −6.26 1175 SER GLN 0.46 −9.07 1175 SER GLY 0.06 3.57 1175 SER GLU 1.47 −2.37 1175 SER CYS −0.04 −1.18 1175 SER ASP 0.75 11.05 1175 SER LYS −0.04 2.21 1175 SER PRO −0.86 13.52 1175 SER HIE 0.22 −1.26 1175 SER ASN 0.01 −2.11 1175 SER HIP −0.16 −10.84 1175 SER VAL 0.18 −3.92 1175 SER THR 0.01 −0.96 1175 SER HID −0.02 −5.35 1175 SER TRP 0.46 −0.76 1175 SER PHE 0.1 −1.46 1175 SER ALA 0.09 0.29 1175 SER MET −0.19 −6.87 1175 SER LEU −0.32 −1.02 1175 SER ARG −0.32 −15.18 1175 SER TYR 0.5 −1.54 1175 SER ILE −1.05 −6.26 1175 SER GLN 0.46 −9.07 1175 SER GLY 0.06 3.57 1175 SER GLU 1.47 −2.37 1175 SER CYS −0.04 −1.18 1175 SER ASP 0.75 11.05 1175 SER LYS −0.04 2.21 1175 SER PRO −0.86 13.52 1175 SER HIE 0.22 −1.26 1175 SER ASN 0.01 −2.11 1175 SER HIP −0.16 −10.84 1175 SER VAL 0.18 −3.92 1175 SER THR 0.01 −0.96 1175 SER HID −0.02 −5.35 1175 SER TRP 0.46 −0.76 1175 SER PHE 0.1 −1.46 1175 SER ALA 0.09 0.29 1175 SER MET −0.19 −6.87 1175 SER LEU −0.32 −1.02 1175 SER ARG −0.32 −15.18 1175 SER TYR 0.5 −1.54 1176 VAL ILE 0.03 −1.02 1176 VAL GLN −0.17 −7.89 1176 VAL GLY −0.07 5.89 1176 VAL GLU 0.74 3.01 1176 VAL CYS −0.16 2.27 1176 VAL ASP 0.65 8.46 1176 VAL SER −0.13 4.31 1176 VAL LYS −0.3 6.12 1176 VAL PRO −0.2 3.95 1176 VAL HIE 0.09 2.65 1176 VAL ASN −0.16 −1.31 1176 VAL HIP 0.59 −3.47 1176 VAL THR −0.16 −2.68 1176 VAL HID 0.21 −2.44 1176 VAL TRP 0.36 −2.36 1176 VAL PHE 0.02 −5.16 1176 VAL ALA −0.05 4.25 1176 VAL MET 0.25 −7.02 1176 VAL LEU 0.06 −4.5 1176 VAL ARG 2.25 −8.16 1176 VAL TYR −0.02 −9.81 1177 VAL ILE −0.01 −7.9 1177 VAL GLN −0.83 10.65 1177 VAL GLY −0.08 20.16 1177 VAL GLU 1.59 17.13 1177 VAL CYS 0.11 8.66 1177 VAL ASP 2.03 26.85 1177 VAL SER −0.15 16.76 1177 VAL LYS −0.81 80.26 1177 VAL PRO −0.02 40.8 1177 VAL HIE −0.06 29.21 1177 VAL ASN −0.46 13.55 1177 VAL HIP −1.78 30.06 1177 VAL THR −0.13 10.58 1177 VAL HID 0.06 30.17 1177 VAL TRP 0.25 1253.69 1177 VAL PHE −0.02 60.84 1177 VAL ALA −0.06 11.87 1177 VAL MET 0.1 35.52 1177 VAL LEU −0.1 3.56 1177 VAL ARG −1.97 34.38 1177 VAL TYR 0.09 131.02 1178 ASN ILE 0.06 −11.1 1178 ASN GLN −3.33 −6.19 1178 ASN GLY 0 −1.67 1178 ASN GLU 0.31 −10.28 1178 ASN CYS −0.06 −4.23 1178 ASN ASP 0.51 4.63 1178 ASN SER −0.03 1.09 1178 ASN LYS 0.88 −1.69 1178 ASN PRO −0.17 11.73 1178 ASN HIE −0.04 −2.65 1178 ASN HIP −0.17 −8.22 1178 ASN VAL 0.05 −6.27 1178 ASN THR 0.03 −5.31 1178 ASN HID 0.06 −7.04 1178 ASN TRP −0.02 −9.51 1178 ASN PHE 0.08 −5.55 1178 ASN ALA −0.01 −3.08 1178 ASN MET −0.25 −6.09 1178 ASN LEU 0.11 −8.13 1178 ASN ARG −0.24 −13.48 1178 ASN TYR 1.1 −5.58 1179 ILE GLN −0.14 12.9 1179 ILE GLY −0.22 31.18 1179 ILE GLU 2.55 29.78 1179 ILE CYS 0.06 19.32 1179 ILE ASP 1.72 34.64 1179 ILE SER −0.03 24 1179 ILE LYS −1.76 42.49 1179 ILE PRO −0.05 57.98 1179 ILE HIE −0.12 17.6 1179 ILE ASN 0.39 22.14 1179 ILE HIP −1.3 13.33 1179 ILE VAL −0.09 8.61 1179 ILE THR 0.1 16.64 1179 ILE HID 0.69 17.98 1179 ILE TRP 0.28 206.13 1179 ILE PHE −0.02 111.62 1179 ILE ALA −0.13 23.73 1179 ILE MET 0.18 −1.07 1179 ILE LEU 0.12 −1.18 1179 ILE ARG −2.2 42.65 1179 ILE TYR 0.03 121.99 1180 GLN ILE −0.09 −1.67 1180 GLN GLY −0.07 5.4 1180 GLN GLU 0.32 3.56 1180 GLN CYS −0.12 2.01 1180 GLN ASP 0.36 7.27 1180 GLN SER −0.12 4.09 1180 GLN LYS −0.33 4.05 1180 GLN PRO −0.25 24.75 1180 GLN HIE 0.07 2.98 1180 GLN ASN −0.01 1.48 1180 GLN HIP −0.32 −2.08 1180 GLN VAL −0.09 1.4 1180 GLN THR −0.12 1.19 1180 GLN HID −0.13 −0.73 1180 GLN TRP 0.06 0.42 1180 GLN PHE 0.04 1.05 1180 GLN ALA −0.11 4.78 1180 GLN MET −0.06 −1.12 1180 GLN LEU −0.08 −1.55 1180 GLN ARG 2.51 −3.93 1180 GLN TYR 0.1 1.4 1181 LYS ILE 0.02 −15.06 1181 LYS GLN 0.08 −10.85 1181 LYS GLY 0.09 −2.53 1181 LYS GLU 0.37 −7.02 1181 LYS CYS 0.08 −3.3 1181 LYS ASP 0.31 −1.87 1181 LYS SER 0.09 −2.18 1181 LYS PRO 0.01 6.45 1181 LYS HIE 0.14 −5.12 1181 LYS ASN 0.1 −2.2 1181 LYS HIP −0.09 −5.61 1181 LYS VAL 0.07 −12.85 1181 LYS THR 0.08 −6.42 1181 LYS HID 0.13 −7.06 1181 LYS TRP 0.15 −9.89 1181 LYS PHE 0.16 −7.87 1181 LYS ALA 0.08 −4.1 1181 LYS MET 0.13 −10.8 1181 LYS LEU 0.09 −10.23 1181 LYS ARG −0.1 −19.03 1181 LYS TYR 0.16 −5.84 1182 GLU ILE −0.72 3.6 1182 GLU GLN −0.27 3.96 1182 GLU GLY −0.3 22.22 1182 GLU CYS −0.39 13.55 1182 GLU ASP 0.09 10.82 1182 GLU SER −0.35 15.86 1182 GLU LYS −0.15 23.9 1182 GLU PRO −0.36 22.59 1182 GLU HIE −0.28 6.2 1182 GLU ASN −0.29 10.38 1182 GLU HIP −0.65 15.96 1182 GLU VAL −0.19 7.02 1182 GLU THR −0.32 11.57 1182 GLU HID −0.39 3.49 1182 GLU TRP −0.38 14.07 1182 GLU PHE −0.52 19.79 1182 GLU ALA −0.29 15.93 1182 GLU MET −0.35 2.67 1182 GLU LEU 0.92 4.01 1182 GLU ARG 5.98 5.91 1182 GLU TYR −0.56 17.65 1183 ILE GLN −0.04 11.29 1183 ILE GLY −0.09 19.38 1183 ILE GLU 0.64 15.44 1183 ILE CYS 0.08 14.46 1183 ILE ASP 1.22 23.01 1183 ILE SER 0.01 12.94 1183 ILE LYS −0.19 17.23 1183 ILE PRO −0.17 51.45 1183 ILE HIE 0.36 12.84 1183 ILE ASN 0.36 13.97 1183 ILE HIP −0.4 13.77 1183 ILE VAL −0.09 7.44 1183 ILE THR −0.03 11.04 1183 ILE HID −0.06 11.78 1183 ILE TRP 0.21 5.41 1183 ILE PHE 0.01 9.39 1183 ILE ALA −0.13 17.25 1183 ILE MET 0 3.39 1183 ILE LEU −0.04 7.9 1183 ILE ARG −0.41 4.75 1183 ILE TYR 0.04 9.85 1184 ASP ILE −0.23 −13 1184 ASP GLN 0.07 −13.27 1184 ASP GLY −0.21 −2.69 1184 ASP GLU −0.11 −5.91 1184 ASP CYS −0.27 −6.29 1184 ASP SER −0.25 −9.91 1184 ASP LYS −0.31 −7.83 1184 ASP PRO −0.25 51.91 1184 ASP HIE −0.28 −9.07 1184 ASP ASN −0.26 −6.04 1184 ASP HIP −0.46 −16.92 1184 ASP VAL −0.26 −9.94 1184 ASP THR −0.29 −9.43 1184 ASP HID −0.67 −7.32 1184 ASP TRP −3.46 −4.49 1184 ASP PHE −1.08 −2.24 1184 ASP ALA −0.25 −5.83 1184 ASP MET −2.04 −14.02 1184 ASP LEU −0.27 −13.9 1184 ASP ARG −0.35 −20.06 1184 ASP TYR −0.28 −4.13 1185 ARG ILE 0.25 6.51 1185 ARG GLN 0.25 7.37 1185 ARG GLY 0.2 18.3 1185 ARG GLU 0.51 11.47 1185 ARG CYS 0.2 16.6 1185 ARG ASP 0.57 23.42 1185 ARG SER 0.11 14.58 1185 ARG LYS 0.01 12.75 1185 ARG PRO 0.27 89.61 1185 ARG HIE 0.3 11.33 1185 ARG ASN 0.39 20.19 1185 ARG HIP 0 3.61 1185 ARG VAL 0.24 13.19 1185 ARG THR 0.08 12.44 1185 ARG HID 0.22 13.17 1185 ARG TRP 0.51 10.73 1185 ARG PHE 0.41 10.73 1185 ARG ALA 0.2 15.96 1185 ARG MET 0.23 4.64 1185 ARG LEU 0.38 6.49 1185 ARG TYR 0.34 9.47 1186 LEU ILE 0.11 20.73 1186 LEU GLN 0.08 15.32 1186 LEU GLY −0.21 31.18 1186 LEU GLU 1.43 21.45 1186 LEU CYS −0.13 21.6 1186 LEU ASP 1.14 29.6 1186 LEU SER −0.18 22.98 1186 LEU LYS −1.23 35.81 1186 LEU PRO −0.08 70.68 1186 LEU HIE 0.1 15.43 1186 LEU ASN 0.21 21.51 1186 LEU HIP −0.94 11.73 1186 LEU VAL −0.17 18.2 1186 LEU THR −0.21 17.91 1186 LEU HID 0.48 15.76 1186 LEU TRP 0.53 68.2 1186 LEU PHE 0.27 13.47 1186 LEU ALA −0.2 23.51 1186 LEU MET −0.32 1.54 1186 LEU ARG −3.87 16.81 1186 LEU TYR 0.86 24.32 1187 ASN ILE −0.15 −4.61 1187 ASN GLN 0.41 −6.76 1187 ASN GLY 0.03 4.78 1187 ASN GLU 0.22 −3.98 1187 ASN CYS 0 −0.39 1187 ASN ASP 0.39 3.5 1187 ASN SER −0.05 −0.44 1187 ASN LYS 1 4.91 1187 ASN PRO −0.03 39.08 1187 ASN HIE 0.14 −5.31 1187 ASN HIP 0.02 −5.3 1187 ASN VAL −0.1 −1.26 1187 ASN THR −0.14 −5.41 1187 ASN HID 0 −2.38 1187 ASN TRP 0.11 −2.94 1187 ASN PHE 0.01 −12.18 1187 ASN ALA −0.02 0.27 1187 ASN MET −0.01 −8.9 1187 ASN LEU −0.03 −10.2 1187 ASN ARG 4.71 −6.84 1187 ASN TYR −0.1 −12.12 1188 GLU ILE −0.05 2.46 1188 GLU GLN −0.1 −1.94 1188 GLU GLY −0.06 7.98 1188 GLU CYS −0.12 3.57 1188 GLU ASP 0.11 11.19 1188 GLU SER −0.11 8.18 1188 GLU LYS −0.44 7.9 1188 GLU PRO −0.07 57.44 1188 GLU HIE −0.12 3.3 1188 GLU ASN −0.08 5.95 1188 GLU HIP −0.18 2.89 1188 GLU VAL −0.05 3.56 1188 GLU THR −0.12 3.54 1188 GLU HID −0.1 2.4 1188 GLU TRP −1.23 0.06 1188 GLU PHE −0.1 1.87 1188 GLU ALA −0.09 4.32 1188 GLU MET −0.12 −3.78 1188 GLU LEU −0.12 −1.07 1188 GLU ARG −0.18 −8.12 1188 GLU TYR −0.09 2.69 1189 VAL ILE −0.01 −8.72 1189 VAL GLN 0.22 −2.52 1189 VAL GLY −0.22 16.73 1189 VAL GLU 0.57 4.13 1189 VAL CYS −0.07 7.75 1189 VAL ASP 0.51 12.23 1189 VAL SER −0.36 8.08 1189 VAL LYS −0.48 13.8 1189 VAL PRO −0.04 56.5 1189 VAL HIE −0.1 5.02 1189 VAL ASN −0.42 8.63 1189 VAL HIP −0.81 0.81 1189 VAL THR −0.31 2.98 1189 VAL HID −0.02 4.74 1189 VAL TRP −0.05 9.14 1189 VAL PHE −0.06 6.41 1189 VAL ALA −0.23 7.78 1189 VAL MET −0.09 −1.99 1189 VAL LEU −0.08 −9.57 1189 VAL ARG 0.9 −0.93 1189 VAL TYR 0.45 101.85 1190 ALA ILE 0.04 33.19 1190 ALA GLN 3.52 −1.08 1190 ALA GLY 0.03 5.56 1190 ALA GLU 9.94 −1.96 1190 ALA CYS −0.27 −0.22 1190 ALA ASP 0.57 7.2 1190 ALA SER −0.3 −0.46 1190 ALA LYS −1.19 11.56 1190 ALA PRO −0.34 120.3 1190 ALA HIE 0.21 4.91 1190 ALA ASN −0.12 5.11 1190 ALA HIP −0.19 5.99 1190 ALA VAL −0.16 14.94 1190 ALA THR −0.21 −4.03 1190 ALA HID −0.23 1.1 1190 ALA TRP −0.81 28.65 1190 ALA PHE −0.22 8 1190 ALA MET −0.73 −7.35 1190 ALA LEU −0.28 34.7 1190 ALA ARG −0.32 −7.57 1190 ALA TYR −5.65 8.56 1191 LYS ILE 0.31 −8.69 1191 LYS GLN 0.39 −4.44 1191 LYS GLY 0.3 3.1 1191 LYS GLU 0.72 1.18 1191 LYS CYS 0.23 −0.05 1191 LYS ASP 0.76 6.95 1191 LYS SER 0.25 −1.62 1191 LYS PRO 0.23 50.85 1191 LYS HIE 0.34 −2.08 1191 LYS ASN 0.24 −3.52 1191 LYS HIP −0.01 −11.08 1191 LYS VAL 0.3 −5.68 1191 LYS THR 0.2 −3.01 1191 LYS HID 0.25 −8.45 1191 LYS TRP 0.38 0.18 1191 LYS PHE 0.33 −1.07 1191 LYS ALA 0.27 0.22 1191 LYS MET 0.27 −7.48 1191 LYS LEU 0.31 −6.11 1191 LYS ARG 0.09 −17.9 1191 LYS TYR 0.32 −5.02 1191 LYS ILE 0.31 −8.69 1191 LYS GLN 0.39 −4.44 1191 LYS GLY 0.3 3.1 1191 LYS GLU 0.72 1.18 1191 LYS CYS 0.23 −0.05 1191 LYS ASP 0.76 6.95 1191 LYS SER 0.25 −1.62 1191 LYS PRO 0.23 50.85 1191 LYS HIE 0.34 −2.08 1191 LYS ASN 0.24 −3.52 1191 LYS HIP −0.01 −11.08 1191 LYS VAL 0.3 −5.68 1191 LYS THR 0.2 −3.01 1191 LYS HID 0.25 −8.45 1191 LYS TRP 0.38 0.18 1191 LYS PHE 0.33 −1.07 1191 LYS ALA 0.27 0.22 1191 LYS MET 0.27 −7.48 1191 LYS LEU 0.31 −6.1 1191 LYS ARG 0.09 −17.9 1191 LYS TYR 0.32 −5.02 1191 LYS ILE 0.31 −8.69 1191 LYS GLN 0.39 −4.44 1191 LYS GLY 0.3 3.1 1191 LYS GLU 0.62 1.15 1191 LYS CYS 0.23 −0.05 1191 LYS ASP 0.76 6.95 1191 LYS SER 0.25 −1.62 1191 LYS PRO 0.23 50.85 1191 LYS HIE 0.34 −2.08 1191 LYS ASN 0.24 −3.52 1191 LYS HIP −0.01 −11.08 1191 LYS VAL 0.3 −5.67 1191 LYS THR 0.2 −3.01 1191 LYS HID 0.25 −8.46 1191 LYS TRP 0.38 0.18 1191 LYS PHE 0.33 −1.07 1191 LYS ALA 0.27 0.22 1191 LYS MET 0.27 −7.48 1191 LYS LEU 0.31 −6.11 1191 LYS ARG 0.09 −17.9 1191 LYS TYR 0.32 −5.02 1191 LYS ILE 0.31 −8.69 1191 LYS GLN 0.39 −4.44 1191 LYS GLY 0.3 3.1 1191 LYS GLU 0.62 1.14 1191 LYS CYS 0.23 −0.05 1191 LYS ASP 0.76 6.95 1191 LYS SER 0.25 −1.62 1191 LYS PRO 0.23 50.85 1191 LYS HIE 0.34 −2.08 1191 LYS ASN 0.24 −3.52 1191 LYS HIP −0.01 −11.08 1191 LYS VAL 0.3 −5.68 1191 LYS THR 0.2 −3.01 1191 LYS HID 0.25 −8.45 1191 LYS TRP 0.38 0.18 1191 LYS PHE 0.33 −1.07 1191 LYS ALA 0.27 0.22 1191 LYS MET 0.27 −7.48 1191 LYS LEU 0.31 −6.11 1191 LYS ARG 0.09 −17.9 1191 LYS TYR 0.32 −5.02 1191 LYS ILE 0.31 −8.69 1191 LYS GLN 0.39 −4.44 1191 LYS GLY 0.3 3.1 1191 LYS GLU 0.72 1.18 1191 LYS CYS 0.23 −0.05 1191 LYS ASP 0.76 6.95 1191 LYS SER 0.25 −1.62 1191 LYS PRO 0.23 50.85 1191 LYS HIE 0.35 −2.08 1191 LYS ASN 0.24 −3.52 1191 LYS HIP 0.1 −11.08 1191 LYS VAL 0.3 −5.67 1191 LYS THR 0.21 −3.01 1191 LYS HID 0.25 −8.46 1191 LYS TRP 0.38 0.18 1191 LYS PHE 0.33 −1.07 1191 LYS ALA 0.27 0.22 1191 LYS MET 0.27 −7.48 1191 LYS LEU 0.31 −6.11 1191 LYS ARG 0.09 −17.9 1191 LYS TYR 0.32 −5.02 1191 LYS ILE 0.31 −8.69 1191 LYS GLN 0.39 −4.44 1191 LYS GLY 0.3 3.1 1191 LYS GLU 0.72 1.17 1191 LYS CYS 0.23 −0.05 1191 LYS ASP 0.76 6.95 1191 LYS SER 0.25 −1.62 1191 LYS PRO 0.23 50.85 1191 LYS HIE 0.34 −2.08 1191 LYS ASN 0.24 −3.52 1191 LYS HIP 0.1 −11.08 1191 LYS VAL 0.3 −5.67 1191 LYS THR 0.21 −3.01 1191 LYS HID 0.25 −8.45 1191 LYS TRP 0.38 0.18 1191 LYS PHE 0.33 −1.07 1191 LYS ALA 0.27 0.22 1191 LYS MET 0.27 −7.48 1191 LYS LEU 0.31 −6.11 1191 LYS ARG 0.09 −17.9 1191 LYS TYR 0.32 −5.02 1191 LYS ILE 0.31 −8.69 1191 LYS GLN 0.39 −4.44 1191 LYS GLY 0.3 3.1 1191 LYS GLU 0.72 1.18 1191 LYS CYS 0.23 −0.05 1191 LYS ASP 0.76 6.95 1191 LYS SER 0.25 −1.62 1191 LYS PRO 0.23 50.85 1191 LYS HIE 0.35 −2.08 1191 LYS ASN 0.24 −3.52 1191 LYS HIP 0.1 −11.08 1191 LYS VAL 0.3 −5.68 1191 LYS THR 0.2 −3.01 1191 LYS HID 0.25 −8.45 1191 LYS TRP 0.38 0.18 1191 LYS PHE 0.33 −1.07 1191 LYS ALA 0.27 0.22 1191 LYS MET 0.27 −7.48 1191 LYS LEU 0.31 −6.11 1191 LYS ARG 0.09 −17.9 1191 LYS TYR 0.32 −5.02 1192 ASN ILE 0.02 −2.36 1192 ASN GLN 0.04 −2.94 1192 ASN GLY −0.03 0.4 1192 ASN GLU 0.37 4.71 1192 ASN CYS −0.08 −0.43 1192 ASN ASP 0.7 8.7 1192 ASN SER −0.01 −0.13 1192 ASN LYS −0.3 −0.07 1192 ASN PRO 0.02 66.12 1192 ASN HIE −0.02 2.97 1192 ASN HIP −0.35 −7.7 1192 ASN VAL −0.02 −2.52 1192 ASN THR −0.04 −3.28 1192 ASN HID −0.03 2.08 1192 ASN TRP −0.23 3.27 1192 ASN PHE −0.01 4.52 1192 ASN ALA −0.03 −2.34 1192 ASN MET 0.02 −2.62 1192 ASN LEU −0.45 −4.27 1192 ASN ARG 2.58 −14.87 1192 ASN TYR 0.36 4.41 1192 ASN ILE 0.02 −2.36 1192 ASN GLN 0.04 −2.94 1192 ASN GLY −0.03 0.4 1192 ASN GLU 0.37 4.71 1192 ASN CYS −0.08 −0.43 1192 ASN ASP 0.7 8.7 1192 ASN SER −0.01 −0.13 1192 ASN LYS −0.3 −0.07 1192 ASN PRO 0.02 66.12 1192 ASN HIE −0.02 2.97 1192 ASN HIP −0.35 −7.7 1192 ASN VAL −0.02 −2.52 1192 ASN THR −0.04 −3.28 1192 ASN HID −0.03 2.09 1192 ASN TRP −0.23 3.27 1192 ASN PHE −0.01 4.52 1192 ASN ALA −0.03 −2.34 1192 ASN MET 0.02 −2.62 1192 ASN LEU −0.45 −4.27 1192 ASN ARG 2.58 −14.87 1192 ASN TYR 0.36 4.42 1192 ASN ILE 0.02 −2.36 1192 ASN GLN 0.04 −2.94 1192 ASN GLY −0.03 0.4 1192 ASN GLU 0.37 4.71 1192 ASN CYS −0.08 −0.43 1192 ASN ASP 0.7 8.7 1192 ASN SER −0.01 −0.13 1192 ASN LYS −0.3 −0.07 1192 ASN PRO 0.02 66.12 1192 ASN HIE −0.02 2.97 1192 ASN HIP −0.35 −7.7 1192 ASN VAL −0.02 −2.52 1192 ASN THR −0.04 −3.28 1192 ASN HID −0.03 2.1 1192 ASN TRP −0.24 3.26 1192 ASN PHE −0.01 4.52 1192 ASN ALA −0.03 −2.34 1192 ASN MET 0.02 −2.62 1192 ASN LEU −0.45 −4.27 1192 ASN ARG 2.58 −14.87 1192 ASN TYR 0.36 4.41 1192 ASN ILE 0.02 −2.36 1192 ASN GLN 0.04 −2.94 1192 ASN GLY −0.03 0.4 1192 ASN GLU 0.37 4.71 1192 ASN CYS −0.08 −0.43 1192 ASN ASP 0.7 8.7 1192 ASN SER −0.01 −0.13 1192 ASN LYS −0.3 −0.07 1192 ASN PRO 0.02 66.12 1192 ASN HIE −0.02 2.97 1192 ASN HIP −0.35 −7.7 1192 ASN VAL −0.02 −2.52 1192 ASN THR −0.04 −3.28 1192 ASN HID −0.03 2.08 1192 ASN TRP −0.23 3.26 1192 ASN PHE −0.01 4.52 1192 ASN ALA −0.03 −2.34 1192 ASN MET 0.02 −2.62 1192 ASN LEU −0.45 −4.27 1192 ASN ARG 2.58 −14.87 1192 ASN TYR 0.36 4.41 1192 ASN ILE 0.02 −2.36 1192 ASN GLN 0.04 −2.94 1192 ASN GLY −0.03 0.4 1192 ASN GLU 0.37 4.71 1192 ASN CYS −0.08 −0.43 1192 ASN ASP 0.7 8.7 1192 ASN SER −0.01 −0.13 1192 ASN LYS −0.3 −0.07 1192 ASN PRO 0.02 66.12 1192 ASN HIE −0.02 2.97 1192 ASN HIP −0.35 −7.7 1192 ASN VAL −0.02 −2.52 1192 ASN THR −0.04 −3.28 1192 ASN HID −0.03 2.08 1192 ASN TRP −0.23 3.26 1192 ASN PHE −0.01 4.52 1192 ASN ALA −0.03 −2.34 1192 ASN MET 0.02 −2.62 1192 ASN LEU −0.45 −4.27 1192 ASN ARG 2.58 −14.87 1192 ASN TYR 0.36 4.41 1192 ASN ILE 0.02 −2.36 1192 ASN GLN 0.04 −2.94 1192 ASN GLY −0.03 0.4 1192 ASN GLU 0.37 4.71 1192 ASN CYS −0.08 −0.43 1192 ASN ASP 0.7 8.7 1192 ASN SER −0.01 −0.13 1192 ASN LYS −0.3 −0.07 1192 ASN PRO 0.02 66.12 1192 ASN HIE −0.02 2.97 1192 ASN HIP −0.35 −7.7 1192 ASN VAL −0.02 −2.52 1192 ASN THR −0.04 −3.28 1192 ASN HID −0.03 2.08 1192 ASN TRP −0.23 3.26 1192 ASN PHE −0.01 4.52 1192 ASN ALA −0.03 −2.34 1192 ASN MET 0.02 −2.62 1192 ASN LEU −0.45 −4.27 1192 ASN ARG 2.58 −14.87 1192 ASN TYR 0.36 4.41 1193 LEU ILE 0.16 13.77 1193 LEU GLN 0.24 15.52 1193 LEU GLY −0.26 28.71 1193 LEU GLU 1.99 23.61 1193 LEU CYS −0.26 20.25 1193 LEU ASP 1.5 33.53 1193 LEU SER −0.34 19.68 1193 LEU LYS −2.31 30 1193 LEU PRO 0.08 106.1 1193 LEU HIE 0.13 17.39 1193 LEU ASN 0.03 22.74 1193 LEU HIP −1.66 13.31 1193 LEU VAL 0.02 19.32 1193 LEU THR −0.09 19.42 1193 LEU HID 0.44 10.2 1193 LEU TRP −0.71 61.98 1193 LEU PHE −0.11 22.23 1193 LEU ALA −0.3 22.87 1193 LEU MET −0.22 −5.85 1193 LEU ARG −2.22 10.71 1193 LEU TYR 0.13 27.38 1193 LEU ILE 0.16 13.77 1193 LEU GLN 0.24 15.52 1193 LEU GLY −0.26 28.71 1193 LEU GLU 1.99 23.61 1193 LEU CYS −0.26 20.25 1193 LEU ASP 1.5 33.53 1193 LEU SER −0.34 19.68 1193 LEU LYS −2.31 30 1193 LEU PRO 0.08 106.1 1193 LEU HIE 0.13 17.39 1193 LEU ASN 0.03 22.74 1193 LEU HIP −1.66 13.31 1193 LEU VAL 0.02 19.32 1193 LEU THR −0.09 19.42 1193 LEU HID 0.44 10.21 1193 LEU TRP −0.71 61.98 1193 LEU PHE −0.11 22.23 1193 LEU ALA −0.3 22.87 1193 LEU MET −0.22 −5.85 1193 LEU ARG −2.22 10.71 1193 LEU TYR 0.13 27.38 1193 LEU ILE 0.16 13.77 1193 LEU GLN 0.24 15.52 1193 LEU GLY −0.26 28.71 1193 LEU GLU 1.99 23.61 1193 LEU CYS −0.26 20.25 1193 LEU ASP 1.5 33.53 1193 LEU SER −0.34 19.68 1193 LEU LYS −2.31 30 1193 LEU PRO 0.08 106.1 1193 LEU HIE 0.13 17.39 1193 LEU ASN 0.03 22.74 1193 LEU HIP −1.66 13.31 1193 LEU VAL 0.02 19.32 1193 LEU THR −0.09 19.42 1193 LEU HID 0.44 10.21 1193 LEU TRP −0.71 61.98 1193 LEU PHE −0.11 22.23 1193 LEU ALA −0.3 22.87 1193 LEU MET −0.22 −5.85 1193 LEU ARG −2.22 10.71 1193 LEU TYR 0.13 27.38 1193 LEU ILE 0.16 13.77 1193 LEU GLN 0.24 15.52 1193 LEU GLY −0.26 28.71 1193 LEU GLU 1.99 23.61 1193 LEU CYS −0.26 20.25 1193 LEU ASP 1.5 33.53 1193 LEU SER −0.34 19.68 1193 LEU LYS −2.31 30 1193 LEU PRO 0.08 106.1 1193 LEU HIE 0.13 17.39 1193 LEU ASN 0.03 22.74 1193 LEU HIP −1.66 13.31 1193 LEU VAL 0.02 19.32 1193 LEU THR −0.09 19.42 1193 LEU HID 0.44 10.21 1193 LEU TRP −0.71 61.98 1193 LEU PHE −0.11 22.23 1193 LEU ALA −0.3 22.87 1193 LEU MET −0.22 −5.85 1193 LEU ARG −2.22 10.71 1193 LEU TYR 0.13 27.38 1193 LEU ILE 0.16 13.77 1193 LEU GLN 0.24 15.52 1193 LhU GLY −0.26 28.71 1193 LEU GLU 1.99 23.61 1193 LEU CYS −0.26 20.25 1193 LEU ASP 1.5 33.53 1193 LEU SER −0.34 19.68 1193 LEU LYS −2.31 30 1193 LEU PRO 0.08 106.1 1193 LEU HIE 0.13 17.39 1193 LEU ASN 0.03 22.74 1193 LEU HIP −1.66 13.31 1193 LEU VAL 0.02 19.32 1193 LEU THR −0.09 19.42 1193 LEU HID 0.44 10.2 1193 LEU TRP −0.71 61.98 1193 LEU PHE −0.11 22.23 1193 LEU ALA −0.3 22.87 1193 LEU MET −0.22 −5.85 1193 LEU ARG −2.22 10.71 1193 LEU TYR 0.13 27.38 1194 ASN ILE −0.1 2.69 1194 ASN GLN −0.07 1.46 1194 ASN GLY −0.1 4.6 1194 ASN GLU 0.47 3.35 1194 ASN CYS −0.15 1.55 1194 ASN ASP 0.49 3.82 1194 ASN SER −0.13 0.96 1194 ASN LYS −0.34 4.05 1194 ASN PRO −0.33 81.47 1194 ASN HIE 0.1 −1.11 1194 ASN HIP −0.51 −4.03 1194 ASN VAL −0.11 3.91 1194 ASN THR −0.14 0.78 1194 ASN HID −0.03 3.36 1194 ASN TRP −3.34 7.76 1194 ASN PHE −0.04 −4.66 1194 ASN ALA −0.12 1.83 1194 ASN MET −0.03 −3.02 1194 ASN LEU −0.22 −3.38 1194 ASN ARG −0.51 −2.6 1194 ASN TYR 0.12 −3.72 1194 ASN ILE −0.1 2.69 1194 ASN GLN −0.07 1.46 1194 ASN GLY −0.1 4.6 1194 ASN GLU 0.47 3.35 1194 ASN CYS −0.15 1.55 1194 ASN ASP 0.49 3.82 1194 ASN SER −0.13 0.96 1194 ASN LYS −0.34 4.05 1194 ASN PRO −0.33 81.47 1194 ASN HIE 0.1 −1.11 1194 ASN HIP −0.51 −4.03 1194 ASN VAL −0.11 3.91 1194 ASN THR −0.14 0.78 1194 ASN HID −0.03 3.36 1194 ASN TRP −3.34 7.76 1194 ASN PHE −0.04 −4.66 1194 ASN ALA −0.12 1.83 1194 ASN MET −0.03 −3.02 1194 ASN LEU −0.22 −3.38 1194 ASN ARG −0.51 −2.6 1194 ASN TYR 0.12 −3.72 1194 ASN ILE −0.1 2.69 1194 ASN GLN −0.07 1.46 1194 ASN GLY −0.1 4.6 1194 ASN GLU 0.47 3.35 1194 ASN CYS −0.15 1.55 1194 ASN ASP 0.49 3.82 1194 ASN SER −0.13 0.96 1194 ASN LYS −0.34 4.05 1194 ASN PRO −0.33 81.47 1194 ASN HIE 0.1 −1.11 1194 ASN HIP −0.51 −4.03 1194 ASN VAL −0.11 3.91 1194 ASN THR −0.14 0.78 1194 ASN HID −0.03 3.36 1194 ASN TRP −3.34 7.76 1194 ASN PHE −0.04 −4.66 1194 ASN ALA −0.12 1.83 1194 ASN MET −0.03 −3.02 1194 ASN LEU −0.22 −3.38 1194 ASN ARG −0.51 −2.6 1194 ASN TYR 0.12 −3.72 1194 ASN ILE −0.1 2.69 1194 ASN GLN −0.07 1.46 1194 ASN GLY −0.1 4.6 1194 ASN GLU 0.47 3.35 1194 ASN CYS −0.15 1.55 1194 ASN ASP 0.49 3.82 1194 ASN SER −0.13 0.96 1194 ASN LYS −0.34 4.05 1194 ASN PRO −0.33 81.47 1194 ASN HIE 0.1 −1.11 1194 ASN HIP −0.51 −4.03 1194 ASN VAL −0.11 3.91 1194 ASN THR −0.14 0.78 1194 ASN HID −0.03 3.36 1194 ASN TRP −3.34 7.76 1194 ASN PHE −0.04 −4.66 1194 ASN ALA −0.12 1.83 1194 ASN MET −0.03 −3.02 1194 ASN LEU −0.22 −3.38 1194 ASN ARG −0.51 −2.6 1194 ASN TYR 0.12 −3.72 1195 GLU ILE −0.38 −0.14 1195 GLU GLN −0.31 2.04 1195 GLU GLY −0.33 10.76 1195 GLU CYS −0.37 9.38 1195 GLU ASP 0.09 10.03 1195 GLU SER −0.33 10.85 1195 GLU LYS −0.69 9.74 1195 GLU PRO −0.38 26.49 1195 GLU HIE −0.3 3.75 1195 GLU ASN −0.35 9.28 1195 GLU HIP −0.68 0.94 1195 GLU VAL −0.35 2.77 1195 GLU THR −0.45 10.08 1195 GLU HID −0.3 5.64 1195 GLU TRP −0.56 2.37 1195 GLU PHE −0.8 5.44 1195 GLU ALA −0.33 8.83 1195 GLU MET −0.35 2.02 1195 GLU LEU −0.36 0.82 1195 GLU ARG −0.71 −3.71 1195 GLU TYR −0.35 2.85 1195 GLU ILE −0.38 −0.14 1195 GLU GLN −0.31 2.04 1195 GLU GLY −0.33 10.76 1195 GLU CYS −0.37 9.38 1195 GLU ASP 0.09 10.03 1195 GLU SER −0.33 10.85 1195 GLU LYS −0.69 9.74 1195 GLU PRO −0.38 26.49 1195 GLU HIE −0.3 3.75 1195 GLU ASN −0.35 9.28 1195 GLU HIP −0.68 0.94 1195 GLU VAL −0.35 2.77 1195 GLU THR −0.45 10.08 1195 GLU HID −0.3 5.64 1195 GLU TRP −0.56 2.37 1195 GLU PHE −0.8 5.44 1195 GLU ALA −0.33 8.83 1195 GLU MET −0.35 2.02 1195 GLU LEU −0.36 0.82 1195 GLU ARG −0.71 −3.71 1195 GLU TYR −0.35 2.85 1195 GLU ILE −0.38 −0.14 1195 GLU GLN −0.31 2.04 1195 GLU GLY −0.33 10.76 1195 GLU CYS −0.37 9.38 1195 GLU ASP 0.09 10.03 1195 GLU SER −0.33 10.85 1195 GLU LYS −0.69 9.74 1195 GLU PRO −0.38 26.49 1195 GLU HIE −0.3 3.75 1195 GLU ASN −0.35 9.28 1195 GLU HIP −0.68 0.94 1195 GLU VAL −0.35 2.77 1195 GLU THR −0.45 10.08 1195 GLU HID −0.3 5.64 1195 GLU TRP −0.56 2.37 1195 GLU PHE −0.8 5.44 1195 GLU ALA −0.33 8.83 1195 GLU MET −0.35 2.02 1195 GLU LEU −0.36 0.82 1195 GLU ARG −0.71 −3.71 1195 GLU TYR −0.35 2.85 1195 GLU ILE −0.38 −0.14 1195 GLU GLN −0.31 2.04 1195 GLU GLY −0.33 10.76 1195 GLU CYS −0.37 9.38 1195 GLU ASP 0.09 10.03 1195 GLU SER −0.33 10.85 1195 GLU LYS −0.69 9.74 1195 GLU PRO −0.38 26.49 1195 GLU HIE −0.3 3.75 1195 GLU ASN −0.35 9.28 1195 GLU HIP −0.68 0.94 1195 GLU VAL −0.35 2.77 1195 GLU THR −0.45 10.08 1195 GLU HID −0.3 5.64 1195 GLU TRP −0.56 2.37 1195 GLU PHE −0.8 5.44 1195 GLU ALA −0.33 8.83 1195 GLU MET −0.35 2.02 1195 GLU LEU −0.36 0.82 1195 GLU ARG −0.71 −3.71 1195 GLU TYR −0.35 2.85 1196 SER ILE 0.36 38.8 1196 SER GLN 0.02 36.11 1196 SER GLY −0.14 14 1196 SER GLU 1.96 42.29 1196 SER CYS 0.02 6.02 1196 SER ASP 2.18 41.52 1196 SER LYS −0.28 47.76 1196 SER PRO 0.04 44.44 1196 SER HIE −1.49 30.01 1196 SER ASN −0.37 21.18 1196 SER HIP −0.35 22.79 1196 SER VAL −0.21 16.49 1196 SER THR −0.41 5.74 1196 SER HID −1.16 31.04 1196 SER TRP 0.11 1168.4 1196 SER PHE −0.08 52.68 1196 SER ALA −0.13 2.81 1196 SER MET −2.23 29.3 1196 SER LEU 0.02 83.13 1196 SER ARG −0.69 30.72 1196 SER TYR 0.01 1248.22 1196 SER ILE 0.36 38.8 1196 SER GLN 0.02 36.11 1196 SER GLY −0.14 14 1196 SER GLU 1.96 42.29 1196 SER CYS 0.02 6.02 1196 SER ASP 2.18 41.52 1196 SER LYS −0.28 47.76 1196 SER PRO 0.04 44.44 1196 SER HIE −1.63 29.97 1196 SER ASN −0.37 21.18 1196 SER HIP −0.35 22.79 1196 SER VAL −0.21 16.49 1196 SER THR −0.41 5.74 1196 SER HID 0.04 206.17 1196 SER TRP 0.11 1168.4 1196 SER PHE −0.08 52.68 1196 SER ALA −0.13 2.81 1196 SER MET −2.23 29.3 1196 SER LEU 0.02 83.13 1196 SER ARG −0.69 30.72 1196 SER TYR 0.01 1248.22 1196 SER ILE 0.36 38.8 1196 SER GLN 0.02 36.11 1196 SER GLY −0.14 14 1196 SER GLU 1.96 42.29 1196 SER CYS 0.02 6.02 1196 SER ASP 2.18 41.52 1196 SER LYS −0.28 47.76 1196 SER PRO 0.04 44.44 1196 SER HIE −1.61 30.02 1196 SER ASN −0.37 21.18 1196 SER HIP −0.35 22.79 1196 SER VAL −0.21 16.49 1196 SER THR −0.41 5.74 1196 SER HID 0.04 206.17 1196 SER TRP 0.11 1168.4 1196 SER PHE −0.08 52.68 1196 SER ALA −0.13 2.81 1196 SER MET −2.23 29.3 1196 SER LEU 0.02 83.13 1196 SER ARG −0.69 30.72 1196 SER TYR 0.01 1248.22 1197 LEU ILE −0.1 7.67 1197 LEU GLN 0.42 10.97 1197 LEU GLY −0.2 17.43 1197 LEU GLU 1.31 19.23 1197 LEU CYS −0.38 12.64 1197 LEU ASP 1.07 25.71 1197 LEU SER −0.31 16.02 1197 LEU LYS −0.62 9.25 1197 LEU PRO −0.35 28.3 1197 LEU HIE −0.08 9.93 1197 LEU ASN −0.09 13.16 1197 LEU HIP −0.89 −0.31 1197 LEU VAL −0.13 7.45 1197 LEU THR −0.23 9.73 1197 LEU HID −0.16 9.49 1197 LEU TRP 0.49 7.54 1197 LEU PHE 0.32 6.8 1197 LEU ALA −0.2 14.75 1197 LEU MET 0.31 1.57 1197 LEU ARG −0.93 −7.32 1197 LEU TYR 0.24 −0.84 1197 LEU ILE −0.1 7.67 1197 LEU GLN 0.42 10.97 1197 LEU GLY −0.2 17.43 1197 LEU GLU 1.31 19.23 1197 LEU CYS −0.38 12.64 1197 LEU ASP 1.07 25.71 1197 LEU SER −0.31 16.02 1197 LEU LYS −0.62 9.25 1197 LEU PRO −0.35 28.3 1197 LEU HIE −0.08 9.93 1197 LEU ASN −0.09 13.16 1197 LEU HIP −0.89 −0.31 1197 LEU VAL −0.13 7.45 1197 LEU THR −0.23 9.73 1197 LEU HID −0.16 9.49 1197 LEU TRP 0.49 7.54 1197 LEU PHE 0.32 6.8 1197 LEU ALA −0.2 14.75 1197 LEU MET 0.31 1.57 1197 LEU ARG −0.93 −7.32 1197 LEU TYR 0.24 −0.84 1197 LEU ILE −0.1 7.67 1197 LEU GLN 0.42 10.97 1197 LEU GLY −0.2 17.43 1197 LEU GLU 1.31 19.23 1197 LEU CYS −0.38 12.64 1197 LEU ASP 1.07 25.71 1197 LEU SER −0.31 16.02 1197 LEU LYS −0.62 9.25 1197 LEU PRO −0.35 28.3 1197 LEU HIE −0.08 9.93 1197 LEU ASN −0.09 13.16 1197 LEU HIP −0.89 −0.31 1197 LEU VAL −0.13 7.45 1197 LEU THR −0.23 9.73 1197 LEU HID −0.16 9.49 1197 LEU TRP 0.49 7.54 1197 LEU PHE 0.32 6.8 1197 LEU ALA −0.2 14.75 1197 LEU MET 0.31 1.57 1197 LEU ARG −0.93 −7.32 1197 LEU TYR 0.24 −0.84 1198 ILE GLN 0.47 12.38 1198 ILE GLY −0.28 30.62 1198 ILE GLU 1.41 20.73 1198 ILE CYS −0.37 19.52 1198 ILE ASP 1.45 36.51 1198 ILE SER −0.32 23.06 1198 ILE LYS −2.14 32.52 1198 ILE PRO −0.25 92.49 1198 ILE HIE −0.5 23.61 1198 ILE ASN −0.16 25.31 1198 ILE HIP −1.55 28.43 1198 ILE VAL −0.13 8.89 1198 ILE THR −0.22 14.76 1198 ILE HID 0.24 25.61 1198 ILE TRP −0.62 81.97 1198 ILE PHE 0.33 25.87 1198 ILE ALA −0.25 22.81 1198 ILE MET −0.13 −1.72 1198 ILE LEU −0.21 5.28 1198 ILE ARG −2.14 19.83 1198 ILE TYR −0.15 85.23 1198 ILE GLN 0.47 12.38 1198 ILE GLY −0.28 30.62 1198 ILE GLU 1.41 20.73 1198 ILE CYS −0.37 19.52 1198 ILE ASP 1.45 36.51 1198 ILE SER −0.32 23.06 1198 ILE LYS −2.14 32.52 1198 ILE PRO −0.25 92.49 1198 ILE HIE −0.5 23.61 1198 ILE ASN −0.16 25.31 1198 ILE HIP −1.55 28.43 1198 ILE VAL −0.13 8.89 1198 ILE THR −0.22 14.76 1198 ILE HID 0.24 25.61 1198 ILE TRP −0.62 81.97 1198 ILE PHE 0.33 25.87 1198 ILE ALA −0.25 22.81 1198 ILL MET −0.13 −1.72 1198 ILE LEU −0.21 5.28 1198 ILE ARG −2.14 19.83 1198 ILE TYR −0.15 85.23 1198 ILE GLN 0.47 12.38 1198 ILE GLY −0.28 30.62 1198 ILE GLU 1.41 20.73 1198 ILE CYS −0.37 19.52 1198 ILE ASP 1.45 36.51 1198 ILE SER −0.32 23.06 1198 ILE LYS −2.14 32.52 1198 ILE PRO −0.25 92.49 1198 ILE HIE −0.5 23.61 1198 ILE ASN −0.16 25.31 1198 ILE HIP −1.55 28.43 1198 ILE VAL −0.13 8.89 1198 ILE THR −0.22 14.76 1198 ILE HID 0.24 25.61 1198 ILE TRP −0.62 81.97 1198 ILE PHE 0.33 25.87 1198 ILE ALA −0.25 22.81 1198 ILE MET −0.13 −1.72 1198 ILE LEU −0.21 5.28 1198 ILE ARG −2.14 19.83 1198 ILE TYR −0.15 85.23 1199 ASP ILE −0.46 −8.5 1199 ASP GLN 0.11 −6.32 1199 ASP GLY −0.5 −1.39 1199 ASP GLU 0.85 −3.56 1199 ASP CYS −0.54 −1.39 1199 ASP SER −0.49 −2.19 1199 ASP LYS −0.76 −3.86 1199 ASP PRO −0.64 4.86 1199 ASP HIE −0.27 −8.66 1199 ASP ASN −0.5 −1.25 1199 ASP HIP −0.09 −12 1199 ASP VAL −0.48 −4.63 1199 ASP THR −0.49 −5.15 1199 ASP HID −0.32 −3.22 1199 ASP TRP −0.23 −4.97 1199 ASP PHE −0.2 −8.4 1199 ASP ALA −0.51 −2.63 1199 ASP MET −3.47 −7.64 1199 ASP LEU −0.43 −10.26 1199 ASP ARG −0.87 −15.57 1199 ASP TYR −8.73 −1.87 1199 ASP ILE −0.46 −8.5 1199 ASP GLN 0.11 −6.32 1199 ASP GLY −0.5 −1.39 1199 ASP GLU 0.85 −3.56 1199 ASP CYS −0.54 −1.39 1199 ASP SER −0.49 −2.19 1199 ASP LYS −0.76 −3.86 1199 ASP PRO −0.64 4.86 1199 ASP HIE −0.27 −8.66 1199 ASP ASN −0.5 −1.25 1199 ASP HIP −0.09 −12 1199 ASP VAL −0.48 −4.63 1199 ASP THR −0.49 −5.15 1199 ASP HID −0.32 −3.22 1199 ASP TRP −0.23 −5.09 1199 ASP PHE −0.2 −8.4 1199 ASP ALA −0.51 −2.63 1199 ASP MET −3.47 −7.64 1199 ASP LEU −0.43 −10.26 1199 ASP ARG −0.89 −14.04 1199 ASP TYR −24.62 −1.17 1199 ASP ILE −0.46 −8.5 1199 ASP GLN 0.11 −6.32 1199 ASP GLY −0.5 −1.39 1199 ASP GLU 0.85 −3.56 1199 ASP CYS −0.54 −1.39 1199 ASP SER −0.49 −2.19 1199 ASP LYS −0.76 −3.86 1199 ASP PRO −0.64 4.86 1199 ASP HIE −0.27 −8.66 1199 ASP ASN −0.5 −1.25 1199 ASP HIP −0.09 −12 1199 ASP VAL −0.48 −4.63 1199 ASP THR −0.49 −5.15 1199 ASP HID −0.32 −3.22 1199 ASP TRP −0.23 −4.99 1199 ASP PHE −0.2 −8.4 1199 ASP ALA −0.51 −2.63 1199 ASP MET −3.47 −7.64 1199 ASP LEU −0.43 −10.26 1199 ASP ARG −0.88 −14.27 1199 ASP TYR −18.07 0.23 1200 LEU ILE −0.05 3.56 1200 LEU GLN −0.04 12.76 1200 LEU GLY −0.12 18.08 1200 LEU GLU 0.78 12.64 1200 LEU CYS −0.18 15.48 1200 LEU ASP 0.62 19.81 1200 LEU SER −0.15 17.05 1200 LEU LYS −0.74 25.5 1200 LEU PRO −0.21 12.44 1200 LEU HIE 0.07 13.43 1200 LEU ASN −0.07 17.12 1200 LEU HIP −0.68 15.43 1200 LEU VAL −0.1 12.86 1200 LEU THR −0.02 16.64 1200 LEU HID −0.17 11.17 1200 LEU TRP −0.14 11.88 1200 LEU PHE −0.12 11.14 1200 LEU ALA −0.13 14.59 1200 LEU MET 0 1.63 1200 LEU ARG −0.62 16.55 1200 LEU TYR −0.13 12.36 1200 LEU ILE −0.05 3.56 1200 LEU GLN −0.04 12.76 1200 LEU GLY −0.12 18.08 1200 LEU GLU 0.78 12.64 1200 LEU CYS −0.18 15.48 1200 LEU ASP 0.62 19.81 1200 LEU SER −0.15 17.05 1200 LEU LYS −0.74 25.5 1200 LEU PRO −0.21 12.44 1200 LEU HIE 0.07 13.43 1200 LEU ASN −0.07 17.12 1200 LEU HIP −0.68 15.43 1200 LEU VAL −0.1 12.86 1200 LEU THR −0.02 16.64 1200 LEU HID −0.17 11.17 1200 LEU TRP −0.14 11.88 1200 LEU PHE −0.12 11.14 1200 LEU ALA −0.13 14.59 1200 LEU MET 0 1.63 1200 LEU ARG −0.62 16.55 1200 LEU TYR −0.13 12.36 1200 LEU ILE −0.05 3.56 1200 LEU GLN −0.04 12.76 1200 LEU GLY −0.12 18.08 1200 LEU GLU 0.78 12.64 1200 LEU CYS −0.18 15.48 1200 LEU ASP 0.62 19.81 1200 LEU SER −0.15 17.05 1200 LEU LYS −0.74 25.5 1200 LEU PRO −0.21 12.44 1200 LEU HIE 0.07 13.43 1200 LEU ASN −0.07 17.12 1200 LEU HIP −0.68 15.43 1200 LEU VAL −0.1 12.86 1200 LEU THR −0.02 16.64 1200 LEU HID −0.17 11.17 1200 LEU TRP −0.14 11.88 1200 LEU PHE −0.12 11.14 1200 LEU ALA −0.13 14.59 1200 LEU MET 0 1.63 1200 LEU ARG −0.62 16.55 1200 LEU TYR −0.13 12.36 1201 GLN ILE 0.06 1.13 1201 GLN GLY 0.01 9.26 1201 GLN GLU 0.5 7.74 1201 GLN CYS −0.04 7.9 1201 GLN ASP 0.57 9.56 1201 GLN SER −0.02 9.76 1201 GLN LYS 0.65 4.59 1201 GLN PRO −0.02 10.24 1201 GLN HIE 0.03 4.52 1201 GLN ASN −0.02 7.01 1201 GLN HIP −0.37 −1 1201 GLN VAL 0.05 3.21 1201 GLN THR 0.07 8.5 1201 GLN HID 0.02 6.2 1201 GLN TRP −0.05 7.08 1201 GLN PHE 0.17 3.93 1201 GLN ALA 0 4.8 1201 GLN MET −0.03 −6.12 1201 GLN LEU 0.08 0.44 1201 GLN ARG −0.31 −2.41 1201 GLN TYR 0.2 4.36 1201 GLN ILE 0.06 1.13 1201 GLN GLY 0.01 9.26 1201 GLN GLU 0.5 7.74 1201 GLN CYS −0.04 7.9 1201 GLN ASP 0.57 9.45 1201 GLN SER −0.02 9.76 1201 GLN LYS 0.65 4.59 1201 GLN PRO −0.02 10.24 1201 GLN HIE 0.03 4.52 1201 GLN ASN −0.02 7.01 1201 GLN HIP −0.37 −1 1201 GLN VAL 0.05 3.21 1201 GLN THR 0.07 8.5 1201 GLN HID 0.02 6.2 1201 GLN TRP −0.05 7.08 1201 GLN PHE 0.17 3.93 1201 GLN ALA 0 4.8 1201 GLN MET −0.03 −6.12 1201 GLN LEU 0.08 0.44 1201 GLN ARG −0.31 −2.41 1201 GLN TYR 0.2 4.36 1201 GLN ILE 0.06 1.13 1201 GLN GLY 0.01 9.26 1201 GLN GLU 0.5 7.74 1201 GLN CYS −0.04 7.9 1201 GLN ASP 0.57 9.33 1201 GLN SER −0.02 9.76 1201 GLN LYS 0.65 4.59 1201 GLN PRO −0.02 10.24 1201 GLN HIE 0.03 4.52 1201 GLN ASN −0.02 7.01 1201 GLN HIP −0.37 −1 1201 GLN VAL 0.05 3.21 1201 GLN THR 0.07 8.5 1201 GLN HID 0.02 6.2 1201 GLN TRP −0.05 7.08 1201 GLN PHE 0.17 3.93 1201 GLN ALA 0 4.8 1201 GLN MET −0.03 −6.12 1201 GLN LEU 0.08 0.44 1201 GLN ARG −0.33 −2.39 1201 GLN TYR 0.2 4.36 1202 GLU ILE −0.45 41.43 1202 GLU GLN −0.42 −15.68 1202 GLU GLY −0.44 18.98 1202 GLU CYS −0.48 25.13 1202 GLU ASP 0 −10.67 1202 GLU SER −0.43 24.92 1202 GLU LYS −0.4 21.88 1202 GLU PRO −0.5 86.02 1202 GLU HIE −0.41 12.12 1202 GLU ASN −0.44 −14.97 1202 GLU HIP −0.84 18.29 1202 GLU VAL −0.45 35.37 1202 GLU THR −0.42 24.36 1202 GLU HID −0.45 19.72 1202 GLU TRP −0.42 8.84 1202 GLU PHE −0.45 28.47 1202 GLU ALA −0.43 24.3 1202 GLU MET −0.42 17.22 1202 GLU LEU −0.82 32.05 1202 GLU ARG −1.01 −7.58 1202 GLU TYR −0.43 20.74 1202 GLU ILE −0.45 41.43 1202 GLU GLN −0.42 −15.68 1202 GLU GLY −0.44 18.98 1202 GLU CYS −0.48 25.13 1202 GLU ASP 0 −10.67 1202 GLU SER −0.43 24.92 1202 GLU LYS −0.4 21.88 1202 GLU PRO −0.5 86.02 1202 GLU HIE −0.41 12.12 1202 GLU ASN −0.44 −14.97 1202 GLU HIP −0.84 18.29 1202 GLU VAL −0.45 35.37 1202 GLU THR −0.42 24.36 1202 GLU HID −0.45 19.72 1202 GLU TRP −0.41 8.74 1202 GLU PHE −0.45 28.47 1202 GLU ALA −0.43 24.3 1202 GLU MET −0.42 17.22 1202 GLU LEU −0.82 32.05 1202 GLU ARG −1.01 −7.58 1202 GLU TYR −0.43 20.74 1202 GLU ILE −0.45 41.43 1202 GLU GLN −0.42 −15.68 1202 GLU GLY −0.44 18.98 1202 GLU CYS −0.48 25.13 1202 GLU ASP 0 −10.67 1202 GLU SER −0.43 24.92 1202 GLU LYS −0.4 21.88 1202 GLU PRO −0.5 86.02 1202 GLU HIE −0.41 12.12 1202 GLU ASN −0.44 −14.97 1202 GLU HIP −0.84 18.29 1202 GLU VAL −0.45 35.37 1202 GLU THR −0.42 24.36 1202 GLU HID −0.45 19.72 1202 GLU TRP −0.42 8.37 1202 GLU PHE −0.45 28.48 1202 GLU ALA −0.43 24.3 1202 GLU MET −0.42 17.22 1202 GLU LEU −0.82 32.05 1202 GLU ARG −1.01 −7.58 1202 GLU TYR −0.43 20.74

Example 2 Energy Maturation Studies

The HR2 structure was further engineered by introduction of several mutations based on the results of the initial residues scanning mutations as described in Example 1. (Schrodinger Suite 2020, NY, USA) The calculations included both stability and affinity options. The side chains were mutated followed by backbone minimization. Affinity maturations upon amino acids mutations was performed using Monte Carlo optimizations of maximal 2000 steps and maximal 6 deviations from the input structure. Based on the results of Δ affinity and Δ stability from the single amino acids mutations, 63 mutations were used in energy maturation studies (Table 2).

TABLE 2 The 63 Mutations Used for Energy Maturation Studies Mutation # WT Residue # MUT 1 VAL 1164 HIS 2 VAL 1164 LYS 3 ASP 1165 CYS 4 ASP 1165 ILE 5 ASP 1165 SER 6 ASP 1165 GLN 7 ASP 1165 LYS 8 ASP 1165 GLY 9 ASP 1165 LEU 10 ASP 1165 ARG 11 ASP 1165 VAL 12 ASP 1165 MET 13 GLY 1167 ARG 14 ASP 1168 HIS 15 ASP 1168 MET 16 ASP 1168 ASN 17 ASP 1168 GLN 18 ASP 1168 ARG 19 SER 1170 HIS 20 SER 1170 ARG 21 ASN 1173 HIS 77 ASN 1173 LYS 23 ASN 1173 ARG 24 SER 1175 MET 25 SER 1175 ILE 26 SER 1175 ARG 27 ASN 1178 MET 28 ASN 1178 GLN 29 ASN 1178 ARG 30 ARG 1184 CYS 31 ARG 1184 HIS 32 ARG 1184 ILE 33 ARG 1184 VAL 34 ARG 1184 LYS 35 ARG 1184 THR 36 ARG 1184 PHE 37 ARG 1184 ALA 38 ARG 1184 MET 39 ARG 1184 HIS 40 ARG 1184 ARG 41 ARG 1184 TRP 42 ARG 1184 ASN 43 ARG 1184 LEU 44 ALA 1190 MET 45 ALA 1190 ARG 46 ASN 1192 HIS 47 ASN 1192 LEU 48 LEU 1193 MET 49 ASN 1194 HIS 50 ASN 1194 LEU 51 GLU 1195 ARG 52 LEU 1197 ARG 53 ASP 1199 ILE 54 ASP 1199 SER 55 ASP 1199 VAL 56 ASP 1199 LYS 57 ASP 1199 MET 58 ASP 1199 LEU 59 ASP 1199 ARG 60 ASP 1199 TYR 61 ASP 1199 HIS 62 GLU 1202 ASN 63 GLU 1202 ARG

The top single amino acids mutants with the highest changes in affinity and favorable stability were combined using a Monte Carlo approach. About 320 mutant HR2 proteins were generated containing a combination of up to 6 mutant residues, compared with the wild type (Table 3). From this list, one peptide was selected with the highest affinity scores. The peptide no. 317 (termed #121) was retrieved with Δ affinity score −13.51 and a Δ stability equaling −24.88. The second peptide was no. 129 (termed #122) showed Δ affinity score −3.93 and A Stability equals −66.91. Therefore, #121 (SEQ ID NO: 2) has higher affinity than #122 but lower stability. Peptide #121 (SEQ ID NO: 2) and peptide #122 (SEQ ID NO: 3), having 5 and 6 mutations, had been selected after energy maturation step. Peptide #125 (SEQ ID NO: 5) comprises 11 amino acid mutations which were inserted into their sites by combining the top affinity changes after initial single amino acid mutations. The sequences of peptides #120 (SEQ ID NO: 1), #121 (SEQ ID NO: 2), #122 (SEQ ID NO: 3), and #125 (SEQ ID No: 5) are presented in Table 4, with the mutated residues underlined.

TABLE 3 The Results of Energy Maturation by Monte Carlo Methods for Combining Several Mutations in HR2 Structure MUT # Mutations Δ Affinity Δ Stability 1 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>ARG), −3.15 −90.5116 A: 1178(ASN−>ARG), A: 1184(ASP−>ARG), A: 1202(GLU−>ASN) 2 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>ARG), −3.20835 −86.7075 A: 1178(ASN−>ARG), A: 1184(ASP−>HIP), A: 1202(GLU−>ASN) 3 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>MET), −2.86123 −86.3462 A: 1178(ASN−>ARG), A: 1184(ASP−>ARG), A: 1202(GLU−>ASN) 4 A: 1164(VAL−>HID), A: 1173(ASN−>ARG), A: 1175(SER−>ARG), −2.26125 −85.0375 A: 1178(ASN−>ARG), A: 1184(ASP−>ARG), A: 1202(GLU−>ASN) 5 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>ARG), −3.14849 −84.3989 A: 1178(ASN−>ARG), A: 1184(ASP−>LEU), A: 1202(GLU−>ASN) 6 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>ARG), −3.13824 −84.3851 A: 1178(ASN−>ARG), A: 1184(ASP−>MET), A: 1202(GLU−>ASN) 7 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>ARG), −3.11404 −83.5476 A: 1178(ASN−>ARG), A: 1184(ASP−>ILE), A: 1202(GLU−>ASN) 8 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>MET), −2.92024 −82.5475 A: 1178(ASN−>ARG), A: 1184(ASP−>HIP), A: 1202(GLU−>ASN) 9 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>ILE), −2.63282 −82.2024 A: 1178(ASN−>ARG), A: 1184(ASP−>ARG), A: 1202(GLU−>ASN) 10 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>MET), −2.82403 −81.444 A: 1178(ASN−>ARG), A: 1184(ASP−>LEU), A: 1202(GLU−>ASN) 11 A: 1164(VAL−>HID), A: 1173(ASN−>ARG), A: 1175(SER−>MET), −1.97265 −80.712 A: 1178(ASN−>ARG), A: 1184(ASP−>ARG), A: 1202(GLU−>ASN) 12 A: 1164(VAL−>LYS), A: 1175(SER−>ARG), A: 1178(ASN−>ARG), −2.41396 −80.6946 A: 1184(ASP−>ARG), A: 1202(GLU−>ASN) 13 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>ARG), −3.13885 −80.4482 A: 1178(ASN−>ARG), A: 1184(ASP−>VAL), A: 1202(GLU−>ASN) 14 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>MET), −2.87162 −80.2281 A: 1178(ASN−>ARG), A: 1184(ASP−>MET), A: 1202(GLU−>ASN) 15 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>ARG), −3.16949 −79.9326 A: 1178(ASN−>ARG), A: 1184(ASP−>THR), A: 1202(GLU−>ASN) 16 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>ARG), −2.9837 −79.8882 A: 1178(ASN−>ARG), A: 1184(ASP−>ARG), A: 1190(ALA−>MET) 17 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>ARG), −3.16017 −79.5818 A: 1178(ASN−>ARG), A: 1184(ASP−>HIE), A: 1202(GLU−>ASN) 18 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>ARG), −3.20243 −79.5381 A: 1178(ASN−>ARG), A: 1184(ASP−>LYS), A: 1202(GLU−>ASN) 19 A: 1164(VAL−>LYS), A: 1173(ASP−>ARG), A: 1175(SER−>ARG), −2.97014 −79.3551 A: 1178(ASN−>ARG), A: 1184(ASP−>HIP), A: 1190(ALA−>MET) 20 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>MET), −2.82606 −79.2243 A: 1178(ASN−>ARG), A: 1184(ASP−>ILE), A: 1202(GLU−>ASN) 21 A: 1164(VAL−>HID), A: 1173(ASN−>ARG), A: 1175(SER−>ARG), −2.25031 −78.9106 A: 1178(ASN−>ARG), A: 1184(ASP−>MET), A: 1202(GLU−>ASN) 22 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>ARG), −2.92139 −78.5547 A: 1184(ASP−>ARG), A: 1202(GLU−>ASN) 23 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>ILE), −2.69119 −78.3961 A: 1178(ASN−>ARG), A: 1184(ASP−>HIP), A: 1202(GLU−>ASN) 24 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>ILE), −2.59426 −77.2938 A: 1178(ASN−>ARG), A: 1184(ASP−>LEU), A: 1202(GLU−>ASN) 25 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>ARG), −2.93001 −77.1471 A: 1178(ASN−>ARG), A: 1184(ASP−>MET), A: 1190(ALA−>MET) 26 A: 1164(VAL−>HID), A: 1173(ASN−>ARG), A: 1175(SER−>MET), −2.03167 −76.9135 A: 1178(ASN−>ARG), A: 1184(ASP−>HIP), A: 1202(GLU−>ASN) 27 A: 1164(VAL−>HID), A: 1173(ASN−>ARG), A: 1175(SER−>ILE), −1.74416 −76.5694 A: 1178(ASN−>ARG), A: 1184(ASP−>ARG), A: 1202(GLU−>ASN) 28 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>ARG), −3.13567 −76.5467 A: 1178(ASN−>ARG), A: 1184(ASP−>ASN), A: 1202(GLU−>ASN) 29 A: 1164(VAL−>HID), A: 1173(ASN−>ARG), A: 1175(SER−>ARG), −2.31438 −76.4215 A: 1178(ASN−>ARG), A: 1184(ASP−>HIP), A: 1202(GLU−>ASN) 30 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>ARG), −3.12762 −76.3308 A: 1178(ASN−>ARG), A: 1184(ASP−>ALA), A: 1202(GLU−>ASN) 31 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>MET), −2.85122 −76.1498 A: 1178(ASN−>ARG), A: 1184(ASP−>VAL), A: 1202(GLU−>ASN) 32 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>ARG), −2.87705 −76.0657 A: 1178(ASN−>ARG), A: 1184(ASP−>ILE), A: 1190(ALA−>MET) 33 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>ARG), −2.72771 −76.0509 A: 1178(ASN−>ARG), A: 1184(ASP−>ARG) 34 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>ILE), −2.62087 −75.9333 A: 1178(ASN−>ARG), A: 1184(ASP−>MET), A: 1202(GLU−>ASN) 35 A: 1164(VAL−>HID), A: 11.73(ASN−>ARG), A: 1175(SER−>MET), −1.93485 −75.8089 A: 1178(ASN−>ARG), A: 1184(ASP−>LEU), A: 1202(GLU−>ASN) 36 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>MET), −2.69484 −75.7216 A: 1178(ASN−>ARG), A: 1184(ASP−>ARG), A: 1190(ALA−>MET) 37 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>MET), −2.88096 −75.6159 A: 1178(ASN−>ARG), A: 1184(ASP−>THR), A: 1202(GLU−>ASN) 38 A: 1164(VAL−>HID), A: 1173(ASN−>ARG), A: 1175(SER−>ARG), −2.22244 −75.6088 A: 1178(ASN−>ARG), A: 1184(ASP−>LEU), A: 1202(GLU−>ASN) 39 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>MET), −2.91395 −75.3534 A: 1178(ASN−>ARG), A: 1184(ASP−>LYS), A: 1202(GLU−>ASN) 40 A: 1164(VAL−>LYS), A: 1175(SER−>MET), A: 1178(ASN−>ARG), −2.13032 −75.31 A: 1184(ASP−>ARG), A: 1202(GLU−>ASN) 41 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>MET), −2.87163 −75.2573 A: 1178(ASN−>ARG), A: 1184(ASP−>HIE), A: 1202(GLU−>ASN) 42 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>MET), −2.67835 −75.14 A: 1178(ASN−>ARG), A: 1184(ASP−>HIP), A: 1190(ALA−>MET) 43 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>ILE), −2.59772 −75.0713 A: 1178(ASN−>ARG), A: 1184(ASP−>ILE), A: 1202(GLU−>ASN) 44 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>ARG), −3.16938 −75.0555 A: 1178(ASN−>ARG), A: 1184(ASP−>ARG), A: 1199(ASP−>VAL) 45 A: 1164(VAL−>HID), A: 1175(SER−>ARG), A: 1178(ASN−>ARG), −1.52503 −75.0103 A: 1184(ASP−>ARG), A: 1202(GLU−>ASN) 46 A: 1164(VAL−>HID), A: 1173(ASN−>ARG), A: 1175(SER−>MET), −1.98351 −74.5899 A: 1178(ASN−>ARG), A: 1184(ASP−>MET), A: 1202(GLU−>ASN) 47 A: 1164(VAL−>HID), A: 1173(ASN−>ARG), A: 1175(SER−>ARG), −2.0849 −74.4922 A: 1178(ASN−>ARG), A: 1184(ASP−>ARG), A: 1190(ALA−>MET) 48 A: 1164(VAL−>HID), A: 1173(ASN−>ARG), A: 1175(SER−>ARG), −2.27884 −74.4681 A: 1178(ASN−>ARG), A: 1184(ASP−>THR), A: 1202(GLU−>ASN) 49 A: 1164(VAL−>LYS), A: 1175(SER−>ARG), A: 1178(ASN−>ARG) −2.40213 −74.4269 A: H84(ASP−>MET), A: 1202(GLU−>ASN) 50 A: 1164(VAL−>HID), A: 1173(ASN−>ARG), A: 1175(SER−>ARG), −2.26962 −74.1192 A: 1178(ASN−>ARG), A: 1184(ASP−>HIE), A: 1202(GLU−>ASN) 51 A: 1164(VAL−>HID), A: 1173(ASN−>ARG), A: 1175(SER−>ARG), −2.28673 −74, 0204 A: 1178(ASN−>ARG), A: 1184(ASP−>LYS), A: 1202(GLU−>ASN) 52 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>MET), −2.58518 −73.9703 A: 1178(ASN−>ARG), A: 1184(ASP−>LEU), A: 1190(ALA−>MET) 53 A: 1164(VAL−>HID), A: 1173(ASN−>ARG), A: 1175(SER−>ARG), −2.07138 −73.961 A: 1178(ASN−>ARG), A: 1184(ASP−>HIP), A: 1190(ALA−>MET) 54 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>MET), −2.64144 −73.8811 A: 1184(ASP−>ARG), A: 1202(GLU−>ASN) 55 A: 1164(VAL−>HID), A: 1173(ASN−>ARG), A: 1175(SER−>MET), −1.93729 −73.5944 A: 1178(ASN−>ARG), A: 1184(ASP−>ILE), A: 1202(GLU−>ASN) 56 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>ARG), −2.90375 −73.0497 A: 1178(ASN−>ARG), A: 1184(ASP−>VAL), A: 1190(ASA−>MET) 57 A: 1164(VAL−>MHP), A: 1173(ASN−>ARG), A: 1175(SER−>ARG), −2.03164 −73.0418 A: 1184(ASP−>ARG), A: 1202(GLU−>ASN) 58 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>MET), −2.63835 −72.757 A: 1178(ASN−>ARG), A: 1184(ASP−>MET), A: 1190(ALA−>MET) 59 A: 1164(VAL−>LYS), A: 1175(SER−>ILE), A: 1178(ASN−>ARG), −1.87427 −72.6957 A: 1184(ASP−>ARG), A: 1202(GLU−>ASN) 60 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>ARG), −3.16475 −72.6793 A: 1178(ASN−>ARG), A: 1184(ASP−>PHE), A: 1202(GLU−>ASN) 61 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>MET), −2.8657 −72.465 A: 1178(ASN−>ARG), A: 1184(ASP−>CYS), A: 1202(GLU−>ASN) 62 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>ARG), −2.93048 −72.4396 A: 1178(ASN−>ARG), A: 1184(ASP−>THR), A: 1190(ALA−>MET) 63 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>MET), −2.85352 −72.24 A: 1178(ASN−>ARG), A: 1184(ASP−>ASN), A: 1202(GLU−>ASN) 64 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>ARG), −2.90996 −72.205 A: 1184(ASP−>MET), A: 1202(GLU−>ASN) 65 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>ARG), −3.1514 −72.1371 A: 1178(ASN−>ARG), A: 1184(ASP−>CYS), A: 1202(GLU−>ASN) 66 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>MET), −2.83939 −72.0255 A: 1178(ASN−>ARG), A: 1184(ASP−>ALA), A: 1202(GLU−>ASN) 67 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>ILE), −2.62152 −72.0013 A: 1178(ASN−>ARG), A: 1184(ASP−>VAL), A: 1202(GLU−>ASN) 68 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>MET), −2.43883 −71.8836 A: 1178(ASN−>ARG), A: 1184(ASP−>ARG) 69 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>MET), −2.9478 −71.8725 A: 1178(ASN−>ARG), A: 1184(ASP−>HIP), A: 1199(ASP−>VAL) 70 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>MET), −2.58851 −71.7534 A: 1178(ASN−>ARG), A: 1184(ASP−>ILE), A: 1190(ALA−>MET) 71 A: 1164(VAL−>HID), A: 1173(ASN−>ARG), A: 1175(SER−>ARG), −2.03125 −71.7529 A: 1178(ASN−>ARG), A: 1184(ASP−>MET), A: 1190(ALA−>MET) 72 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>ARG), −2.78057 −71.7522 A: 1178(ASN−>ARG), A: 1184(ASP−>HIP) 73 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>ILE), −2.47592 −71.6783 A: 1178(ASN−>ARG), A: 1184(ASP−>ARG), A: 1190(ALA−>MET) 74 A: 1164(VAL−>LYS), A: 1174(SER−>MET), A: 1178(ASN−>ARG), −2.1891 −71.5334 A: 1184(ASP−>HIP), A: 1202(GLU−>ASN) 75 A: 1164(VAL−>LYS), A: 1175(SER−>ARG), A: 1178(ASN−>ARG), −2.47533 −71.5042 A: 1184(ASP−>HIP), A: 1202(GLU−>ASN) 76 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>ILE), −2.65276 −71.4651 A: 1178(ASN−>ARG), A: 1184(ASP−>THR), A: 1202(GLU−>ASN) 77 A: 1164(VAL−>HID), A: 1173(ASN−>ARG), A: 1175(SER−>ARG), −2.26304 −71.3236 A: 1178(ASN−>ARG), A: 1184(ASP−>CYS), A: 1202(GLU−>ASN) 78 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>ARG), −0.516825 −71.3124 A: 1178(ASN−>ARG), A: 1184(ASP−>HIP), A: 1199(ASP−>VAL) 79 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>ILE), −2.6856 −71.2206 A: 1178(ASN−>ARG), A: 1184(ASP−>LYS), A: 1202(GLU−>ASN) 80 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>ILE), −2.46309 −71.1379 A: 1178(ASN−>ARG), A: 1184(ASP−>HIP), A: 1190(ALA−>MET) 81 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>MET), −2.87288 −70.6398 A: 1178(ASN−>ARG), A: 1184(ASP−>TRP), A: 1202(GLU−>ASN) 82 A: 1164(VAL−>HID), A: 1173(ASN−>ARG), A: 1175(SER−>ARG), −1.83906 −70.5481 A: 1178(ASN−>ARG), A: 1184(ASP−>ARG) 83 A: 1164(VAL−>HID), A: 1173(ASN−>ARG), A: 1175(SER−>MET), −1.96153 −70.5143 A: 1178(ASN−>ARG), A: 1184(ASP−>VAL), A: 1202(GLU−>ASN) 84 A: 1164(VAL−>LYS), A: 1175(SER−>ARG), A: 1178(ASN−>ARG), −2.3792 −70.491 A: 1184(ASP−>LEU), A: 1202(GLU−>ASN) 85 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>ARG), −3.18508 −70.3237 A: 1178(ASN−>ARG), A: 1184(ASP−>TRP), A: 1202(GLU−>ASN) 86 A: 1164(VAL−>LYS), A: 1175(SER−>MET), A: 1178(ASN−>ARG), −2.09248 −70.3027 A: 1184(ASP−>LEU), A: 1202(GLU−>ASN) 87 A: 1164(VAL−>LYS), A: 1175(SER−>ARG), A: 1178(ASN−>ARG), −2.25074 −70.264 A: 1184(ASP−>ARG), A: 1190(ALA−>MET) 88 A: 1164(VAL−>HID), A: 1173(ASN−>ARG), A: 1175(SER−>ARG), −2.24818 −70.2603 A: 1178(ASN−>ARG), A: 1184(ASP−>VAL), A: 1202(GLU−>ASN) 89 A: 1164(VAL−>HID), A: 1173(ASN−>ARG), A: 1175(SER−>MET), −1.79539 −70.1623 A: 1178(ASN−>ARG), A: 1184(ASP−>ARG), A: 1190(ALA−>MET) 90 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>MET), −2.69125 −70.0385 A: 1184(ASP−>HIP), A: 1202(GLU−>ASN) 91 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>ILE), −2.40499 −70.0128 A: 1184(ASP−>ARG), A: 1202(GLU−>ASN) 92 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>ARG), −2.97927 −70.0001 A: 1184(ASP−>HIP), A: 1202(GLU−>ASN) 93 A: 1164(VAL−>HID), A: 1173(ASN−>ARG), A: 1175(SER−>MET), −1.99143 −69.9823 A: 1178(ASN−>ARG), A: 1184(ASP−>THR), A: 1202(GLU−>ASN) 94 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>ARG), −2.71599 −69.806 A: 1178(ASN−>ARG), A: 1184(ASP−>MET) 95 A: 1164(VAL−>LYS), A: 1175(SER−>ARG), A: 1178(ASN−>ARG), −2.23843 −69.7272 A: 1184(ASP−>HIP), A: 1190(ALA−>MET) 96 A: 1164(VAL−>HID), A: 1173(ASN−>ARG), A: 1175(SER−>MET), −1.77931 −69.5775 A: 1178(ASN−>ARG), A: 1184(ASP−>HIP), A: 1190(ALA−>MET) 97 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>MET), −2.89081 −69.4973 A: 1178(ASN−>ARG), A: 1184(ASP−>LEU), A: 1199(ASP−>VAL) 98 A: 1164(VAL−>HID), A: 1173(ASN−>ARG), A: 1175(SER−>ARG), −2.26314 −69.4945 A: 1178(ASN−>ARG), A: 1184(ASP−>TRP), A: 1202(GLU−>ASN) 99 A: 1164(VAL−>HID), A: 1175(SER−>MET), A: 1178(ASN−>ARG), −1.24082 −69.4942 A: 1184(ASP−>ARG), A: 1202(GLU−>ASN) 100 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>ARG), −3.17673 −69.1654 A: 1178(ASN−>ARG), A: 1184(ASP−>LEU), A: 1199(ASP−>VAL) 101 A: 1164(VAL−>LYS), A: 1175(SER−>MET), A: 1178(ASN−>ARG), −2.14073 −69.0781 A: 1184(ASP−>MET), A: 1202(GLU−>ASN) 102 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>ARG), −2.89142 −68.8574 A: 1178(ASN−>ARG), A: 1184(ASP−>ALA), A: 1190(ALA−>MET) 103 A: 1164(VAL−>HID), A: 1175(SER−>ARG), A: 1178(ASN−>ARG), −1.51398 −68.7879 A: 1184(ASP−>MET), A: 1202(GLU−>ASN) 104 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>ARG), −2.87331 −68.7805 A: 1184(ASP−>LEU), A: 1202(GLU−>ASN) 105 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>ILE), −2.42088 −68.7319 A: 1178(ASN−>ARG), A: 1184(ASP−>MET), A: 1190(ALA−>MET) 106 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>MET), −2.61056 −68.656 A: 1178(ASN−>ARG), A: 1184(ASP−>VAL), A: 1190(ALA−>MET) 107 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>MET), −2.59308 −68.5377 A: 1184(ASP−>LEU), A: 1202(GLU−>ASN), A: 1164(VAL−>LYS), 108 A: 1173(ASN−>ARG), A: 1175(SER−>MET), A: 1178(ASN−>ARG), −2.87633 −68.3844 A: 1184(ASP−>PHE), A: 1202(GLU−>ASN) 109 A: 1164(VAL−>HID), A: 1173(ASN−>ARG), A: 1175(SER−>MET), −1.75278 −68.2442 A: 1184(ASP−>ARG), A: 1202(GLU−>ASN) 110 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>MET), −2.64184 −68.1336 A: 1178(ASN−>ARG), A: 1184(ASP−>THR), A: 1190(ALA−>MET) 111 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>ILE), −2.62486 −68.0901 A: 1178(ASN−>ARG), A: 1184(ASP−>ASN), A: 1202(GLU−>ASN) 112 A: 1164(VAL−>LYS), A: 1175(SER−>MET), A: 1178(ASN−>ARG), −2.09451 −68.0828 A: 1184(ASP−>ILE), A: 1202(GLU−>ASN) 113 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>MET), _?498?5 −68.0702 A: 1178(ASN−>ARG), A: 1184(ASP−>HIP) 114 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>ARG), −274988 −68.0679 A: 1184(ASP−>ARG), A: 1190(ALA−>MET) 115 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>MET), −2.67546 −67.9832 A: 1178(ASN−>ARG), A: 1184(ASP−>LYS), A: 1190(ALA−>MET) 116 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>MET), −2.63539 −67.8022 A: 1178(ASN−>ARG), A: 1184(ASP−>HIE), A: 1190(ALA−>MET) 117 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>ILE), −2.21033 −67.7376 A: 1178(ASN−>ARG), A: 1184(ASP−>ARG), A: 1164(VAL−>LYS) 118 A: 1173(ASN−>ARG), A: 1175(SER−>ILE), A: 1178(ASN−>ARG), −2.36989 −67.7095 A: 1184(ASP−>ILE), A: 1190(ALA−>MET) 119 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>ARG), −2.95321 −67.5733 A: 1178(ASN−>ARG), A: 1184(ASP−>TRP), A: 1190(ALA−>MET) 120 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>ARG), −2.92368 −67.4455 A: 1178(ASN−>ARG), A: 1184(ASP−>HIE), A: 1190(ALA−>MET) 121 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>ARG), −2.92977 −67.4121 A: 1178(ASN−>ARG), A: 1184(ASP−>LYS), A: 1190(ALA−>MET) 122 A: 1164(VAL−>LYS), A: 1175(SER−>ARG), A: 1178(ASN−>ARG), −2.19916 −67.4095 A: 1184(ASP−>MET), A: 1190(ALA−>MET) 123 A: 1164(VAL−>LYS), A: 1173(ASX−>ARG), A: 1175(SER−>ARG), −2.73459 −67.3546 A: 1184(ASP−>HIP), A: 1190(ALA−>MET), A: 1164(VAL−>HID), 124 A: 1173(ASN−>ARG), A: 1175(SER−>MET), A: 1178(ASN−>ARG), −1.73996 −67.2204 A: 1184(ASP−>MET), A: 1190(ALA−>MET) 125 A: 1164(VAL−>HID), A: 1173(ASN−>ARG), A: 1175(SER−>ARG), −2.27028 −67.1836 A: 1178(ASN−>ARG), A: 1184(ASP−>PHE), A: 1202(GLU−>ASN) 126 A: 1164(VAL−>HID), A: 1165(ASP−>ARG), A: 1173(ASN−>ARG), −3.09006 −66.9395 A: 1175(SER−>MET), A: 1178(ASN−>ARG), A: 1184(ASP−>MET) 127 A: 1164(VAL−>LYS), A: 1165(ASP−>ARG), A: 1173(ASN−>ARG), −3.928 −66.9124 A: 1175(SER−>MET), A: 1178(ASN−>ARG), A: 1184(ASP−>MET) 128 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>MET), −2.40174 −66.8723 A: 1178(ASN−>ARG), A: 1184(ASP−>LEU) 129 A: 1164(VAL−>LYS), A: 1165(ASP−>MET), A: 1173(ASN−>ARG), −3.5736 −66.7995 A: 1175(SER−>ARG), A: 1178(ASN−>ARG), A: 1184(ASP−>HIP) 130 A: 1164(VAL−>HID), A: 1173(ASN−>ARG), A: 1175(SER−>MET), −1.95052 −66.3943 A: 1178(ASN−>ARG), A: 1184(ASP−>ALA), A: 1202(GLU−>ASN) 131 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>MET), −2.59701 −66.3285 A: 1184(ASP−>ILE), A: 1202(GLU−>ASN) 132 A: 1164(VAL−>HID), A: 1173(ASN−>ARG), A: 1175(SER−>MET), −1.55026 −66.2486 A: 1178(ASN−>ARG), A: 1184(ASP−>ARG) 133 A: 1164(VAL−>HID), A: 1173(ASN−>ARG), A: 1175(SER−>MET), −2.05838 −66.2385 A: 1178(ASN−>ARG), A: 1184(ASP−>HIP), A: 1199(ASP−>VAL) 134 A: 1164(VAL−>HID), A: 1173(ASN−>ARG), A: 1175(SER−>MET), −1.68924 −66.1946 A: 1178(ASN−>ARG), A: 1184(ASP−>ILE), A: 1190(ALA−>MET) 135 A: 1164(VAL−>HID), A: 1173(ASN−>ARG), A: 1175(SER−>ARG), −2.23545 −66.1903 A: 1178(ASN−>ARG), A: 1184(ASP−>ALA), A: 1202(GLU−>ASN) 136 A: 1164(VAL−>LYS), A: 1165(ASP−>SER), A: 1173(ASN−>ARG), −3.14599 −65.5882 A: 1175(SER−>MET), A: 1178(ASN−>ARG), A: 1184(ASP−>LEU) 137 A: 1164(VAL−>HID), A: 1173(ASN−>ARG), A: 1175(SER−>ILE), −1.56168 −65.5328 A: 1178(ASN−>ARG), A: 1184(ASP−>HIP), A: 1190(ALA−>MET) 138 A: 1164(VAL−>HID), A: 1165(ASP−>SER), A: 1173(ASN−>ARG), −2.29549 −65.4798 A: 1175(SER−>MET), A: 1178(ASN−>ARG), A: 1184(ASP−>LEU) 139 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>ILE), −2.66177 −65.3458 A: 1178(ASN−>ARG), A: 1184(ASP−>LEU), A: 1199(ASP−>VAL) 140 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>MET), −2.61782 −65.2462 A: 1178(ASN−>ARG), A: 1184(ASP−>ASN), A: 1190(ALA−>MET) 141 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>MET), −2.446 −65.1794 A: 1178(ASN−>ARG), A: 1184(ASP−>MET), A: 1164(VAL−>LYS), 142 A: 1173(ASN−>ARG), A: 1175(SER−>ARG), A: 1178(ASN−>ARG), −2.72561 −65.1716 A: 1184(ASP−>LEU) 143 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>ARG), −3.15618 −65.1475 A: 1178(ASN−>ARG), A: 1184(ASP−>VAL), A: 1199(ASP−>VAL) 144 A: 1164(VAL−>LYS), A: 1175(SER−>MET), A: 1178(ASN−>ARG), −1.96398 −64.9665 A: 1184(ASP−>ARG), A: 1190(ALA−>MET), 145 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>MET), −2.62551 −64.964 A: 1178(ASN−>ARG), A: 1184(ASP−>CYS), A: 1190(ALA−>MET) 146 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>ARG), −2.7056 −64.9267 A: 1184(ASP−>MET), A: 1190(ALA−>MET) 147 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>ARG), −2.90685 −64.9043 A: 1178(ASN−>ARG), A: 1184(ASP−>ASN), A: 1190(ALA−>MET) 148 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>MET), −2.90094 −64.6852 A: 1178(ASN−>ARG), A: 1184(ASP−>HIE), A: 1199(ASP−>VAL) 149 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>MET), −2.40386 −64.6453 A: 1178(ASN−>ARG), A: 1184(ASP−>ILE) 150 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>ARG), −2.91451 −64.6249 A: 1178(ASN−>ARG), A: 1184(ASP->CYA), : 1190(ALA−>MET) 151 A: 1164(VAL−>LYS), A: 1175(SER−>ARG), A: 1178(ASN−>ARG), −2.4356 −64.5724 A: 1184(ASP−>ARG), A: 1199(ASP−>VAL) 152 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A:1175(SER−>MET), −2.60191 −64.5258 A: 1178(ASN−>ARG), A: 1184(ASP−>ALA), A: 1190(ALA−>MET) 153 A: 1164(VAL−>LYS), A: 1175(SER−>MET), A: 1178(ASN−>ARG), −2.14927 −64.4745 A: 1184(ASP−>THR), A: 1202(GLU−>ASN) 154 A: 1164(VAL−>LYS), A: 1175(SER−>ARG), A: 1178(ASN−>ARG), −2.46702 −64.3537 A: 1184(ASP−>LYS), A: 1202(GLU−>ASN) 155 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>ARG), −3.18554 −64.3519 A: 1178(ASN−>ARG), A: 1184(ASP−>HIE), A: 1199(ASP−>VAL) 156 A: 1164(VAL−>LYS), A: 1178(ASN−>ARG), A: 1184(ASP−>ARG), −1.9736 −64.3502 A: 1190(ALA−>MET), A: l194(ASN−>LEU), A: 1199(ASP−>HIE) 157 A: 1164(VAL−>HID), A: 1173(ASN−>ARG), A: 1175(SER−>ARG), −1.82802 −64.3376 A: 1178(ASN−>ARG), A: 1184(ASP−>MED. 158 A: 1164(VAL−>LYS), A: 1175(SER−>MET), A: 1178(ASN−>ARG), −1.94693 −64.3347 A: 1184(ASP−>HIP), A: 1190(ALA−>MET) 159 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>ILE), −2.64384 −64.2248 A: 1178(ASN−>ARG), A: 1184(ASP−>PHE), A: 1202(GLU−>ASN) 160 A: 1164(VAL−>HID), A: 1175(SER−>ARG), A: 1178(ASN−>ARG), −1.57318 −64.0203 A: 1184(ASP−>LYS), A: 1202(GLU−>ASN) 161 A: 1164(VAL−>LYS), A: 1175(SER−>ILE), A: 1178(ASN−>ARG), −2.29523 −63.9817 A: 1184(ASP−>ARG), A: 1190(ALA−>MET), A: 1194(ASN−>HIP) 162 A: 1164(VAL−>HID), A: 1173(ASN−>ARG), A: 1175(SER−>MET), −2.00221 −63.8718 A: 1178(ASN−>ARG), A: 1184(ASP−>LEU), A: 1199(ASP−>VAL) 163 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>ILE), −2.41927 −63.7744 A: 1178(ASN−>ARG), A: 1184(ASP−>HIE), A: 1190(ALA−>MET) 164 A: 1164(VAL−>HID), A: 1173(ASN−>ARG), A: 1175(SER−>ARG), −2.27711 −63.5811 A: 1178(ASN−>ARG), A: 1184(ASP−>LEU), A: 1199(ASP−>VAL) 165 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>MET), −2.46413 −63.3576 A: 1184(ASP−>ARG), A: 1190(ALA−>MET) 166 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>MET), −2.91376 −63.2499 A: 1178(ASN−>ARG), A: 1184(ASP−>THR), A: 1199(ASP−>VAL) 167 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>MET), −2.64001 −63.2023 A: 1178(ASN−>ARG), A: 1184(ASP−>TRP), A: 1190(ALA−>MET) 168 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>ARG), −2.93736 −63.0834 A: 1184(ASP−>ARG), A: 1199(ASP−>VAL) 169 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>ARG), −2.96397 −62.8659 A: 1184(ASP−>LYS), A: 1202(GLU−>ASN) 170 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>MET), −2.68914 −62.8447 A: 1184(ASP−>LYS), A: 1202(GLU−>ASN) 171 A: 1164(VAL−>HID), A: 1173(ASN−>ARG), A: 1175(SER−>ARG), −1.99285 −62.8164 A: 1178(ASN−>ARG), A: 1184(ASP−>VAL), A: 1190(ALA−>MET) 172 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>MET), −2.65492 −62.7923 A: 1184(ASP−>THR), A: 1202(GLU−>ASN) 173 A: 1164(VAL−>LYS), A: 1165(ASP−>ARG), A: 1173(ASN−>HIP), −3.88582 −62.7674 A: 1175(SER−>MET), A: 1178(ASN−>ARG), A: 1184(ASP−>MET) 174 A: 1164(VAL−>HID), A: 1173(ASN−>ARG), A: 1175(SER−>MET), −1.9833 −62.7382 A: 1178(ASN−>ARG), A: 1184(ASP−>PHE), A: 1202(GLU−>ASN) 175 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>MET), −2.44671 −62.5372 A: 1184(ASP−>HIP), A: 1190(ALA−>MET) 176 A: 1164(VAL−>LYS), A: 1165(ASP−>ARG), A: 1173(ASN−>ARG), −3.67967 −62.341 A: 1175(SER−>MET), A: 1178(ASN−>MET), A-1184(ASP−>MET) 177 A: 1164(VAL−>LYS), A: 1175(SER−>ILE), A: 1178(ASN−>ARG), −1.71426 −62.3026 A: 1184(ASP−>ARG), A: 1190(ALA−>MET) 178 A: 1164(VAL−>LYS), A: 1175(SER−>MET), A: 1178(ASN−>ARG), −1.90748 −61.8435 A: 1184(ASP−>MET), A: 1190(ALA−>MET) 179 A: 1164(VAL−>LYS), A: 1178(ASN−>ARG), A: 1184(ASP−>ARG), −2.34314 −61.5862 A: 1190(ALA−>MET), A: 1194(ASN−>HIP), A: 1199(ASP−>HIE) 180 A: 1164(VAL−>HID), A: 1173(ASN−>ARG), A: 1175(SER−>ARG), −1.87272 −61.4739 A: 1178(ASN−>ARG), A: 1184(ASP−>HIP) 181 A: 1164(VAL−>HID), A: 1173(ASN−>ARG), A: 1175(SER−>MET), −1.54951 −61.2732 A: 1178(ASN−>ARG), A: 1184(ASP−>LEU) 182 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>ILE), −2.40038 −61.2207 A: 1178(ASN−>ARG), A: 1184(ASP−>ASN), A: 1190(ALA−>MET) 183 A: 1164(VAL−>LYS), A: 1165(ASP−>SER), A: 1173(ASN−>HIP), −3.10441 −61.1722 A: 1175(SER−>MET), A: 1178(ASN−>ARG), A: 1184(ASP−>LEU) 184 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>ILE), −2.22859 −61.1545 A: 1178(ASN−>ARG), A: 1184(ASP−>MET) 185 A: 1164(VAL−>LYS), A: 1178(ASN−>ARG), A: 1184(ASP−>HIP), −1.93857 −61.1541 A: 1190(ALA−>MET), A: 1194(ASN−>LEU), A: 1199(ASP−>HIE) 186 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>ARG), −3.15493 −61.1074 A: 1178(ASN−>ARG), A: 1184(ASP−>ALA), A: 1199(ASP−>VAL) 187 A: 1164(VAL−>HID), A: 1165(ASP−>SER), A: 1173(ASN−>HIP), −2.25286 −61, 056 A: 1175(SER−>MET), A: 1178(ASN−>ARG), A: 1184(ASP−>LEU) 188 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>MET), −2.45804 −61.042 A: 1178(ASN−>ARG), A: 1184(ASP−>THR) 189 A: 1164(VAL−>LYS), A: 1178(ASN−>ARG), A: 1184(ASP−>HIP), −2.32895 −60.9551 A: 1190(ALA−>MET), A: 1194(ASN−>HIP), A: 1199(ASP−>HIE) 190 A: 1164(VAL−>LYS), A: 1165(ASP−>SER), A: 1173(ASN−>ARG), −2.90263 −60.9092 A: 1175(SER−>MET), A: 1178(ASN−>MET), A: 1184(ASP−>LEU) 191 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>MET), −2.63509 −60.9004 A: 1178(ASN−>ARG), A: 1184(ASP−>PHE), A: 1190(ALA−>MET) 192 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>MET), −2.49057 −60.8806 A: 1178(ASN−>ARG), A: 1184(ASP−>LYS) 193 A: 1164(VAL−>LYS), A: 1175(SER−>MET), A: 1178(ASN−>ARG), −2.10775 −60.8756 A: 1184(ASP−>ALA), A: 1202(GLU−>ASN) 194 A: 1164(VAL−>LYS), A: 1165(ASP−>ARG), A: 1173(ASN−>ARG), −3.57056 −60.8698 A: 1175(SER−>MET), A: 1178(ASN−>GLN), A: 1184(ASP−>MET) 195 A: 1164(VAL−>LYS), A: 1175(SER−>MET), A: 1178(ASN−>ARG), −2.21569 −60.8561 A: 1184(ASP−>HIP), A: 1199(ASP−>VAL) 196 A: 1164(VAL−>LYS), A: 1175(SER−>ARG), A: 1178(ASN−>ARG), −2.50428 −60.837 A: 1184(ASP−>HIP), A: 1199(ASP−>VAL) 197 A: 1164(VAL−>LYS), A: 1175(SER−>MET), A: 1178(ASN−>ARG), −1.85736 −60.8231 A: 1184(ASP−>ILE), A: 1190(ALA−>MET) 198 A: 1164(VAL−>HID), A: 1165(ASP−>SER), A: 1173(ASN−>ARG), −2.0521 −60.8007 A: 1175(SER−>MET), A: 1178(ASN−>MET), A: 1184(ASP−>LEU) 199 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>ARG), −2.77682 −60.3913 A: 1178(ASN−>ARG), A: 1184(ASP−>LYS) 200 A: 1164(VAL−>LYS), A: 1175(SER−>ILE), A: 1178(ASN−>MET), −2.0909 −60.035 A: 1184(ASP−>ARG), A: 1190(ALA−>MET), A: 1194(ASN−>HIP) 201 A: 1164(VAL−>LYS), A: 1178(ASN−>ARG), A: 1184(ASP−>LEU), −2.23391 −60, 0169 A: 1190(ALA−>MET), A: l194(ASN−>HIP), A: 1199(ASP−>HIE) 202 A: 1164(VAL−>LYS), A: 1178(ASN−>ARG), A: 1184(ASP−>LEU), −1.8501 −59.9887 A: 1190(ALA−>MET), A: 1194(ASN−>LEU), A: 1199(ASP−>HIE), 203 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>MET), −2.41103 −59.8778 A: 1184(ASP−>MET), A: 1190(ALA−>MET) 204 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>ILE), −2.24587 −59.5636 A: 1184(ASP−>ARG), A: 1190(ALA−>MET) 205 A: 1164(VAL−>HID), A: 1173(ASN−>ARG), A: 1175(SER−>ARG), −1.88721 −59.5589 A: 1178(ASN−>ARG), A: 1184(ASP−>LYS) 206 A: 1164(VAL−>LYS), A: 1165(ASP−>SER), A: 1173(ASN−>ARG), −2.79297 −59.4426 A: 1175(SER−>MET), A: 1178(ASN−>GLN), A: 1184(ASP−>LEU) 207 A: 1164(VAL−>HID), A: 1165(ASP−>SER), A: 1173(ASN−>ARG), −1.941 −59.3255 A: 1175(SER−>MET), A: 1178(ASN−>GLN), A: 1184(ASP−>LEU) 208 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>MET), −2.62115 −59.299 A: 1184(ASP−>ALA), A: 1202(GLU−>ASN) 209 A: 1164(VAL−>LYS), A: 1175(SER−>ILE), A: 1178(ASN−>ARG), −1.65888 −59.2057 A: 1184(ASP−>MET), A: 1190(ALA−>MET) 210 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>MET), −2.35596 −58.7707 A: 1184(ASP−>ILE), A: 1190(ALA−>MET) 211 A: 1164(VAL−>HID), A: 1175(SER−>ARG), A: 1178(ASN−>ARG), −1.32787 −58.6361 A: 1184(ASP−>HIP), A: 1190(ALA−>MET) 212 A: 1164(VAL−>HID), A: 1178(ASN−>ARG), A: 1184(ASP−>ARG), −1.07475 −58.6274 A: 1190(ALA−>MET), A: 1194(ASN−>LEU), A: 1199(ASP−>HIE) 213 A: 1164(VAL−>LYS), A: 1175(SER−>ARG), A: 1178(ASN−>ARG), −2.44453 −58.5548 A: 1184(ASP−>LEU), A: 1199(ASP−>VAL) 214 A: 1164(VAL−>LYS), A: 1175(SER−>1LE), A: 1178(ASN−>GLN), −2.00642 −58.5309 A: 1184(ASP−>ARG), A: 1190(ALA−>MET), A: 1194(ASN−>HIP) 215 A: 1164(VAL−>LYS), A: 1175(SER−>MET), A: 1178(ASN−>ARG), −2.15956 −58.3528 A: 1184(ASP−>LEU), A: 1199(ASP−>VAL) 216 A: 1164(VAL−>HID), A: 1175(SER−>ILE), A: 1178(ASN−>ARG), −1.39562 −58.2628 A: 1184(ASP−>ARG), A: 1190(ALA−>MET), A: 1194(ASN−>HIP) 217 A: 1164(VAL−>LYS), A: 1175(SER−>ILE), A: 1178(ASN−>ARG), 0.571404 −58.22 A: 1184(ASP−>ARG), A: 1190(ALA−>ARG), A: 1194(ASN−>HIP) 218 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>MET), −2.90235 −57.7798 A: 1178(ASN−>ARG), A: 1184(ASP−>PHE), A: 1199(ASP−>VAL) 219 A: 1164(VAL−>LYS), A: 1178(ASN−>ARG), A: 1184(ASP−>ILE), −1.85326 −57.7746 A: 1190(ALA−>MET), A: 1194(ASN−>LEU), A: 1199(ASP−>HIE) 220 A: 1164(VAL−>LYS), A: 1178(ASN−>ARG), A: 1184(ASP−>ILE), −2.2333 −57.7722 A: 1190(ALA−>MET), A: 1194(ASN−>HIP), A: 1199(ASP−>HIE) 221 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>ARG), −2.72911 −57.5653 A: 1178(ASN−>ARG), A: 1184(ASP−>CYS) 222 A: 1164(VAL−>LYS), A: 1178(ASN−>ARG), A: 1184(ASP−>ARG), −2.54591 −57.4777 A: 1190(ALA−>MET), A: 1194(ASN−>HIP) 223 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>MET), −2.41707 −57.4453 A: 1178(ASN−>ARG), A: 1184(ASP−>ALA) 224 A: 1164(VAL−>HID), A: 1173(ASN−>ARG), A: 1175(SER−>ARG), −2.02148 −57.3468 A: 1178(ASN−>ARG), A: 1184(ASP−>TRP), A: 1190(ALA−>MET) 225 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>ARG), −2.70191 −57.1236 A: 1178(ASN−>ARG), A: 1184(ASP−>ALA) 226 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A:1175(SER−>ARG), −2.93847 −57.0341 A: 1184(ASP−>LEU), A: 1199(ASP−>VAL) 227 A: 1164(VAL−>HID), A: 1173(ASN−>ARG), A: 1175(SER−>ARG), −1, 81954 −56.962 A: 1184(ASP−>HIP), A: 1190(ALA−>MET) 228 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>MET), −2.67239 −56.9136 A: 1184(ASP−>LEU), A: 1199(ASP−>VAL) 229 A: 1164(VAL−>LYS), A: 1165(ASP−>ARG), A: 1173(ASN−>LYS), −3.77371 −56.43 A: 1175(SER−>MET), A: 1178(ASN−>ARG), A: 1184(ASP−>MET) 230 A: 1164(VAL−>LYS), A: 1178(ASN−>ARG), A: 1184(ASP−>ARG), −1.7807 −56.401 A: 1194(ASN−>LEU), A: 1199(ASP−>HIE) 231 A: 1164(VAL−>LYS), A: 1178(ASN−>ARG), A: 1184(ASP−>ARG), −1.5806 −56.2086 A: 1190(ALA−>MET), A: 1194(ASN−>LEU) 232 A: 1164(VAL−>LYS), A: 1165(ASP−>ARG), A: 1173(ASN−>ARG), −3.93351 −56.0908 A: 1178(ASN−>ARG), A: 1184(ASP−>MET) 233 A: 1164(VAL−>LYS), A: 1173(ASN−>ARG), A: 1175(SER−>ILE), −2.19329 −56.0845 A: 1184(ASP−>MET), A: 1190(ALA−>MET) 234 A: 1164(VAL−>HID), A: 1178(ASN−>ARG), A: 1184(ASP−>ARG), −1.44375 −55.8382 A: 1190(ALA−>MET), A: 1194(ASN−>HIP), A: 1199(ASP−>HIE) 235 A: 1164(VAL−>LYS), A: 1175(SER−>ILE), A: 1178(ASN−>MET), −1.57359 −56.6665 A: 1184(ASP−>ARG), A: 1190(ALA−>MET) 236 A: 1164(VAL−>HID), A: 1178(ASN−>ARG), A: 1184(ASP−>HIP), −1.04398 −55.429 A: 1190(ALA−>MET), A: 1194(ASN−>LEU), A: 1199(ASP−>HIE) 237 A: 1164(VAL−>HID), A: 1178(ASN−>ARG), A: 1184(ASP−>HIP), −1.42994 −55.2321 A: 1190(ALA−>MET), A: 1194(ASN−>HIP), A: 1199(ASP−>HIE) 238 A: 1164(VAL−>LYS), A: 1165(ASP−>SER), A: 1173(ASN−>LYS), −2.99354 −54.7792 A: 1175(SER−>MET), A: 1178(ASN−>ARG), A: 1184(ASP−>LEU) 239 A: 1164(VAL−>LYS), A: 1165(ASP−>SER), A: 1173(ASN−>ARG), −3.15365 −54.7765 A: 1178(ASN−>ARG), A: 1184(ASP−>LEU) 240 A: 1164(VAL−>HID), A: 1165(ASP−>SER), A: 1173(ASN−>ARG), −2.29925 −54.6827 A: 1178(ASN−>ARG), A: 1184(ASP−>LEU) 241 A: 1164(VAL−>HID), A: 1165(ASP−>SER), A: 1173(ASN−>LYS), −2.14137 −54.6386 A: 1175(SER−>MET), A: 1178(ASN−>ARG), A: 1184(ASP−>LEU) 242 A: 1164(VAL−>LYS), A: 1173(ASN−>LYS), A: 1175(SER−>MET), −2.29027 −54.6029 A: 1178(ASN−>ARG), A: 1184(ASP−>MET) 243 A: 1164(VAL−>HID), A: 1178(ASN−>ARG), A: 1184(ASP−>LEU), −1.33444 −54.2878 A: 1190(ALA−>MET), A: 1194(ASN−>HIP), A: 1199(ASP−>HIE) 244 A: 1164(VAL−>HID), A: 1178(ASN−>ARG), A: 1184(ASP−>LEU), −0.950624 −54.2595 A: 1190(ALA−>MET), A: 1194(ASN−>LEU), A: 1199(ASP−>HIE) 245 A: 1164(VAL−>LYS), A: 1178(ASN−>ARG), A: 1184(ASP−>THR), −2.29015 −54.1733 A: 1190(ALA−>MET), A: 1194(ASN−>HIP), A: 1199(ASP−>HIE) 246 A: 1164(VAL−>LYS), A: 1178(ASN−>ARG), A: 1184(ASP−>THR), −1.90838 −54.1509 A: 1190(ALA−>MET), A: 1194(ASN−>LEU), A: 1199(ASP−>HIE) 247 A: 1164(VAL−>LYS), A: 1178(ASN−>ARG), A: 1184(ASP−>HIE), −2.28396 −53.8287 A: 1190(ALA−>MET), A: 1194(ASN−>HIP), A: 1199(ASP−>HIE) 248 A: 1164(VAL−>LYS), A: 1178(ASN−>ARG), A: 1184(ASP−>LYS), −2.31945 −53.6853 A: 1190(ALA−>MET), A: 1194(ASN−>HIP), A: 1199(ASP−>HIE) 249 A: 1164(VAL−>HID), A: 1165(ASP−>ARG), A: 1173(ASN−>ARG), −2.81062 −53.396 A: 1175(SER−>MET), A: 1178(ASN−>ARG) 250 A: 1164(VAL−>LYS), A: 1165(ASP−>ARG), A: 1173(ASN−>ARG), −3.6499 −53.3685 A: 1175(SER−>MET), A: 1178(ASN−>ARG) 251 A: 1164(VAL−>LYS), A: 1178(ASN−>ARG), A: 1184(ASP−>ARG), −2.13751 −53.24 A: 1194(ASN−>HIP), A: 1199(ASP−>ILE) 252 A: 1164(VAL−>LYS), A: 1178(ASN−>ARG), A: 1184(ASP−>HIP), −1.74878 −53.2001 A: 1194(ASN−>LEU), A: 1199(ASP−>HIE) 253 A: 1164(VAL−>HID), A: 1173(ASN−>ARG), A: 1175(SER−>ILE), −1.32956 −53.1974 A: 1184(ASP−>HIP), A: 1190(ALA−>MET) 254 A: 1164(VAL−>LYS), A: 1178(ASN−>ARG), A: 1184(ASP−>HIP), −1.93039 −53.1422 A: 1190(ALA−>MET), A: 1194(ASN−>HIP) 255 A: 1164(VAL−>LYS), A: 1178(ASN−>ARG), A: 1184(ASP−>HIP), −1.55086 −52.972 A: 1190(ALA−>MET), A: 1194(ASN−>LEU), A: 1164(VAL−>LYS), 256 A: 1178(ASN−>ARG), A: 1184(ASP−>HIP), A: 1194(ASN−>HIP), −2.12473 −52.6295 A: 1199(ASP−>HIE) 257 A: 1164(VAL−>LYS), A: 1165(ASP−>SER), A: 1173(ASN−>ARG), −2.88468 −52.1912 A: 1175(SER−>MET), A: 1178(ASN−>ARG) 258 A: 1164(VAL−>HID), A: 1165(ASP−>SER), A: 1173(ASN−>ARG), −2.03178 −52.0905 A: 1175(SER−>MET), A: 1178(ASN−>ARG) 259 A: 1164(VAL−>LYS), A: 1178(ASN−>ARG), A: 1184(ASP−>LEU), −1.64748 −52.0075 A: 1194(ASN−>LEU), A: 1199(ASP−>HIE) 260 A: 1164(VAL−>LYS), A: 1168(ASP−>GLN), A: 1178(ASN−>ARG), −2.59663 −51.9118 A: 1184(ASP−>THR), A: 1194(ASN−>HIP), A: 1199(ASP−>HIE) 261 A: 1164(VAL−>LYS), A: 1184(ASP−>ARG), A: 1190(ALA−>MET), −1.72345 −51.7064 A: 1194(ASN−>LEU), A: 1199(ASP−>HIE) 262 A: 1164(VAL−>LYS), A: 1178(ASN−>ARG), A: 1184(ASP−>LEU), −2.02591 −51.6844 A: 1194(ASN−>HIP), A: 1199(ASP−>HIE) 263 A: 1164(VAL−>LYS), A: 1178(ASN−>ARG), A: 1184(ASP−>LEU), −1.45716 −51.6508 A: 1190(ALA−>MET), A: 1194(ASN−>LEU) 264 A: 1164(VAL−>LYS), A: 1178(ASN−>ARG), A: 1184(ASP−>ASN), −2.26597 −51.3284 A: 1190(ALA−>MET), A: 1194(ASN−>HIP), A: 1199(ASP−>HIE) 265 A: 1164(VAL−>LYS), A: 1178(ASN−>ARG), A: 1184(ASP−>CYS), −2.27511 −51.0564 A: 1190(ALA−>MET), A: 1194(ASN−>HIP), A: 1199(ASP−>HIE) 266 A: 1164(VAL−>LYS), A: 1178(ASN−>ARG), A: 1184(ASP−>CYS), −1.89015 −50.9924 A: 1190(ALA−>MET), A: 1194(ASN−>LEU), A: 1199(ASP−>HIE) 267 A: 1164(VAL−>LYS), A: 1178(ASN−>ARG), A: 1184(ASP−>MET), −1.89218 −50.8508 A: 1190(ALA−>MET), A: 1194(ASN−>HIP) 268 A: 1164(VAL−>LYS), A: 1178(ASN−>ARG), A: 1184(ASP−>ASN), −1.87443 −50.7509 A: 1190(ALA−>MET), A: 1194(ASN−>LEU), A: 1199(ASP−>HIE) 269 A: 1164(VAL−>LYS), A: 1178(ASN−>ARG), A: 1184(ASP−>ALA), −1.86726 −50.5608 A: 1190(ALA−>MET), A: 1194(ASN−>LEU), A: 1199(ASP−>HIE) 270 A: 1164(VAL−>LYS), A: 1184(ASP−>ARG), A: 1190(ALA−>MET), −2.09582 −49.3103 A: 1194(ASN−>HIP), A: 1199(ASP−>HIE) 271 A: 1164(VAL−>LYS), A: 1178(ASN−>ARG), A: 1184(ASP−>TRP), −1.90576 −49.2111 A: 1190(ALA−>MET), A: 1194(ASN−>LEU), A: 1199(ASP−>HIE) 272 A: 1164(VAL−>HID), A: 1178(ASN−>ARG), A: 1184(ASP−>VAL), −1.36119 −49.0123 A: 1190(ALA−>MET), A: 1194(ASN−>HIP), A: 1199(ASP−>HIE) 273 A: 1164(VAL−>LYS), A: 1184(ASP−>HIP), A: 1190(ALA−>MET), −1.69181 −48.5687 A: 1194(ASN−>LEU), A: 1199(ASP−>HIE) 274 A: 1164(VAL−>LYS), A: 1184(ASP−>HIP), A: 1190(ALA−>MET), −2.07738 −48.5237 A: 1194(ASN−>HIP), A: 1199(ASP−>HIE) 275 A: 1164(VAL−>HID), A: 1178(ASN−>ARG), A: 1184(ASP−>THR), −1.0066 −48.4213 A: 1190(ALA−>MET), A: 1194(ASN−>LEU), A: 1199(ASP−>HIE) 276 A: 1164(VAL−>LYS), A: 1168(ASP−>GLN), A: 1178(ASN−>MET), −2.39275 −47.8262 A: 1184(ASP−>THR), A: 1194(ASN−>HIP), A: 1199(ASP−>HIE) 277 A: 1164(VAL−>LYS), A: 1175(SER−>ILE), A: 1178(ASN−>ARG), −1.95965 −47.6444 A: 1190(ALA−>MET), A: 1194(ASN−>HIP) 278 A: 1i64(VAL−>HID), A: 1178(ASN−>ARG), A: 1184(ASP−>HIP), −1.03445 −47.445 A: 1190(ALA−>MET), A: 1194(ASN−>HIP) 279 A: 1164(VAL−>LYS), A: 1184(ASP−>LEU), A: 1190(ALA−>MET), −1.98168 −47.1781 A: 1194(ASN−>HIP), A: 1199(ASP−>HIE) 280 A: 1164(VAL−>LYS), A: 1184(ASP−>LEU), A: 1190(ALA−>MET), −1.59609 −46.9553 A: 1194(ASN−>LEU), A: 1199(ASP−>HIE) 281 A: 1164(VAL−>HID), A: 1178(ASN−>ARG), A: 1184(ASP−>HIP), −1.22551 −46.9187 A: 1194(ASN−>HIP), A: 1199(ASP−>HIE) 282 A: 1164(VAL−>LYS), A: 1168(ASP−>HIP), A: 1178(ASN−>ARG), −2.82991 −46.5096 A: 1184(ASP−>THR), A: 1194(ASN−>LEU), A: 1199(ASP−>HIE) 283 A: 1164(VAL−>LYS), A: 1168(ASP−>HIP), A: 1178(ASN−>ARG), −3.0163 −46.2756 A: 1184(ASP−>THR), A: 1194(ASN−>HIP), A: 1199(ASP−>HIE) 284 A: 1164(VAL−>LYS), A: 1178(ASN−>ARG), A: 1184(ASP−>THR), −1.89486 −46.2453 A: 1190(ALA−>MET), A: 1194(ASN−>HIP) 285 A: 1164(VAL−>LYS), A: 1178(ASN−>ARG), A: 1184(ASP−>THR), −1.69532 −46.1835 A: 1194(ASN−>LEU), A: 1199(ASP−>HIE) 286 A: 1164(VAL−>LYS), A: 1178(ASN−>ARG), A: 1184(ASP−>LYS), −1.92686 −45.9518 A: 1190(ALA−>MET), A: 1194(ASN−>HIP) 287 A: 1164(VAL−>LYS), A: 1178(ASN−>ARG), A: 1184(ASP−>THR), −2.08195 −45.9496 A: 1194(ASN−>HIP), A: 1199(ASP−>H1L) 288 A: 1164(VAL−>LYS), A: 1168(ASP−>GLN), A: 1178(ASN−>ARG), 0.730758 −45.8112 A: 1193(LEU−>MET), A: 1194(ASN−>HIP), A: 1199(ASP−>HIE) 289 A: 1164(VAL−>LYS), A: 1178(ASN−>ARG), A: 1184(ASP−>THR), −1.51284 −45.7945 A: 1190(ALA−>MET), A: 1194(ASN−>LEU) 290 A: 1164(VAL−>LYS), A: 1168(ASP−>GLN), A: 1178(ASN−>ARG), −2.19932 −43.9543 A: 1184(ASP−>THR), A: 1194(ASN−>HIP) 291 A: 1164(VAL−>LYS), A: 1168(ASP−>GLN), A: 1178(ASN−>ARG), −2.3087 −43.3278 A: 1194(ASN−>HIP), A: 1199(ASP−>HIE) 292 A: 1164(VAL−>HID), A: 1184(ASP−>HIP), A: 1190(ALA−>MET), −1.17839 −42.8006 A: 1194(ASN−>HIP), A: 1199(ASP−>HIE) 293 A: 1164(VAL−>LYS), A: 1168(ASP−>GLN), A: 1178(ASN−>MET), −2.53737 −41.521 A: 1193(LEU−>MET), A: 1194(ASN−>HIP), A: 1199(ASP−>HIE) 294 A: 1164(VAL−>HID), A: 1178(ASN−>ARG), A: 1184(ASP−>PHE), −1.40863 −41.2912 A: 1190(ALA−>MET), A: 1194(ASN−>HIP), A: 1199(ASP−>HIE) 295 A: 1164(VAL−>LYS), A: 1184(ASP−>THR), A: 1190(ALA−>MET), −1.65308 −41.1686 A: 1194(ASN−>LEU), A: 1199(ASP−>HIE) 296 A: 1164(VAL−>LYS), A: 1168(ASP−>GLN), A: 1178(ASN−>GLN), −2.1701 −40.5958 A: 1193(LEU−>MET), A: 1194(ASN−>LEU), A: 1199(ASP−>HIE) 297 A: 1164(VAL−>LYS), A: 1168(ASP−>GLN), A: 1178(ASN−>GLN), −2.54242 −40.2526 A: 1193(LEU−>MET), A: 1194(ASN−>HIP), A: 1199(ASP−>HIE) 298 A: 1164(VAL−>HID), A: 1165(ASP−>GLN), A: 1168(ASP−>GLN), −2.15808 −36.2301 A: 1178(ASN−>GLN), A: 1194(ASN−>HIP), A: 1199(ASP−>HIE) 299 A: 1164(VAL−>LYS), A: 1165(ASP−>GLN), A: 1168(ASP−>GLN), −3.00511 −35.8764 A: 1178(ASN−>GLN), A: 1194(ASN−>HIP), A: 1199(ASP−>HIE) 300 A: 1164(VAL−>LYS), A: 1165(ASP−>GLN), A: 1168(ASP−>GLN), −2.62743 −35.7392 A: 1178(ASN−>GLN), A: 1194(ASN−>LEU), A: 1199(ASP−>HIE) 301 A: 1164(VAL−>LYS), A: 1168(ASP−>GLN), A: 1178(ASN−>GLN), −1.83659 −35.6898 A: 1194(ASN−>LEU), A: 1199(ASP−>HIE), A: 1164(VAL−>H1D), 302 A: 1168(ASP−>GLN), A: 1178(ASN−>GLN), A: 1193(LEU−>MET), −1.64034 −34.8058 A: 1194(ASN−>HIP), A: 1199(ASP−>HIE) 303 A: 1164(VAL−>LYS), A: 1168(ASP−>GLN), A: 1178(ASN−>GLN), −2.26436 −33.9855 A: 1194(ASN−>HIP), A: 1199(ASP−>HIE) 304 A: 1164(VAL−>HID), A: 1168(ASP−>GLN), A: 1178(ASN−>GLN), −1.36231 −32.1643 A: 1194(ASN−>HIP), A: 1199(ASP−>HIE) 305 A: 1164(VAL−>LYS), A: 1168(ASP−>GLN), A: 1178(ASN−>GLN), −2.14806 −32.0562 A: 1193(LEU−>MET), A: 1194(ASN−>HIP) 306 A: 1164(VAL−>LYS), A: 1178(ASN−>GLN), A: 1193(LEU−>MET), −2.03995 −31.9945 A: 1194(ASN−>HIP), A: 1199(ASP−>HIE) 307 A: 1164(VAL−>HID), A: 1165(ASP−>VAL), A: 1178(ASN−>GLN), −1.60228 −30.9256 A: 1194(ASN−>HIP), A: 1199(ASP−>HIE) 308 A: 1164(VAL−>HID), A: 1165(ASP−>GLN), A: 1178(ASN−>GLN), −1.64634 −29.9852 A: 1194(ASN−>HIP), A: 1199(ASP−>HIE) 309 A: 1164(VAL−>LYS), A: 1165(ASP−>GLN), A: 1178(ASN−>GLN), −2.49333 −29.9225 A: 1194(ASN−>HIP), A: 1199(ASP−>HIE) 310 A: 1164(VAL−>HID), A: 1165(ASP−>GLN), A: 1168(ASP−>GLN), −2.10437 −28.8455 A: 1194(ASN−>HIP), A: 1199(ASP−>HIE) 311 A: 1164(VAL−>LYS), A: 1165(ASP−>GLN), A: 1168(ASP−>GLN), −2.96153 −28.4493 A: 1194(ASN−>H1P), A: 1199(ASP−>HIE) 312 A: 1164(VAL−>HID), A: 1165(ASP−>GLN), A: 1168(ASP−>GLN), −1.76329 −2.8.0323 A: 1178(ASN−>GLN), A: 1194(ASN−>HIP) 313 A: 1164(VAL−>LYS), A: 1165(ASP−>GLN), A: 1168(ASP−>GLN), −2.61085 −27.6731 A: 1178(ASN−>GLN), A: 1194(ASN−>HIP) 314 A: 1164(VAL−>HID), A: 1165(ASP−>VAL), A: 1178(ASN−>GLN), −1.08433 −27.3038 A: 1199(ASP−>HIE) 315 A: 1164(VAL−>HID), A: 1165(ASP−>VAL), A: 1178(ASN−>GLN), −13.5073 −24.8788 A: 1194(ASN−>HIP), A: 1199(ASP−>TYR) 316 A: 1164(VAL−>HID), A: 1178(ASN−>GLN), A: 1199(ASP−>HIE) −0.33034 −21.8208 317 A: 1164(VAL−>HID), A: 1178(ASN−>GLN) 0.0618879 −13.28 318 A: 1164(VAL−>HID) 0.110205 −5.83216

TABLE 4 Peptide Sequences for Wild Type and Mutated Peptides Descrip- Peptide SEQ ID Number tion Sequence Mutations NO: #120 WT VDLGDISGINASVVNIQKEI WT SEQ ID DRLNEVAKNLNESLIDLQE NO: 1 #121 Highest HVLGDISGINASVVQIQKEI 5 SEQ ID Affinity DRLNEVAKNLHESLIYLQE NO: 2 #122 2^(nd) VDLGDISGIRAMVVRIQKEI 6 SEQ ID Highest MRLNEVAKNLNESLIDLQE Affinity, NO: High 3 Stability #123 Highest LRLGDISGiRARVVRIQKEI 6 SEQ ID Stability, HRLNEVAKNLNESLIDLQN NO: High 4 Affinity #125 High HRLRQIRGIRARVVQIQKEI 11 SEQ ID Affinity WRLNEVAKLLNESLIYLQE NO: 5

Example 3 Cell-Cell Fusion Assays

HEK293T is an immortalized cell line derived from a human fetal kidney. A pair of previously described 293FT-based reporter cell lines that constitutively express individual split reporters (DSP1-7 and DSP8-11 proteins) (Wang et al, 2014) were used and maintained in Dulbecco's modified Eagle's medium (DMEM) containing 10/fetal bovine serum (FBS) and 1 g/mL puromycin. Calu-3 cells (ATCC HTB-55) were maintained in Eagle's minimum essential medium (EMEM) containing 10% fetal bovine serum (FBS). For the construction of transient transfection vectors, a synthetic DNA corresponding to the S gene of SARS-CoV-2 (NC_045512.2) was cloned into a lentiviral transfer plasmid (CD500B-1, SBI, Palo Alto, Calif., USA) and the VSV-G gene was cloned into pCAG plasmid.

The DSP assay using 293FT cells was performed as described previously (Yamamoto et al, 2020) to monitor SARS-CoV-2-S-mediated membrane fusion. Briefly, effector cells expressing SARS-CoV-2-S protein with DSP8-11, target cells expressing ACE2, and TMPRSS2 with DSP1-7 were seeded in 10 cm culture dishes (4×10⁶ cells/10 ml) one day before the assay. Two hours before the DSP assay, cells were treated with 6 μM EnduRen (Promega, Madison, Wis., USA), a substrate for Renilla luciferase, to activate EnduRen. One microliter of each peptide dissolved in dimethyl sulfoxide (DMSO) was added to the 384-well plates (Greiner Bioscience, Frickenhausen, Germany). Next, 50 μl of each single-cell suspension (effector and target cells) was added to the wells using a Multidrop dispenser (Thermo Fisher Scientific, Waltham, Mass., USA). After incubation at 37° C. for 4 h, luciferase activity was measured using a Centro xS960 luminometer (Berthold, Germany).

The three peptides #120 (SEQ ID. NO:1), #121 (SEQ ID. NO: 2) and #125 (SEQ ID NO: 5) showed strong inhibition of SARS-CoV-2 Spike-mediated cell-cell fusion with IC₅₀ values of 0.75, 0.72 and 4.4 μM, respectively. (See FIG. 1)

Example 4 SARS-CoV-2 Pseudovirus Assay

There are two routes of transmission of SARS-CoV-2, one through endocytosis and the other through the plasma membrane. VeroE6 cells are originally infected with SARS-CoV-2 by the endocytosis pathway. However, induction of TMPRSS2 expression causes them to be strongly dependent on the plasma membrane route of infection, as is the case with Calu-3 cells (Hoffmann et al, 2020).

293T cells were transfected with an expression plasmid for SARS-CoV-2-S, VSV-G, or control expression plasmid by calcium-phosphate precipitation. At 16 h post-transfection, the cells were inoculated with a replication-deficient VSV, VSV-ΔGLuci, which lacks the VSV-G gene and encodes firefly luciferase, at an MOI=1 as described previously (Tani et al, 2010). After 2 h of incubation, cells were washed with DMEM and further incubated for 16 h before supernatants containing the pseudotyped viral particles were harvested. Cellular debris was removed from the supernatants using a syringe filter with a 0.2 μm size pore (Millipore, Bedford, Mass., USA).

For an infection assay, target Calu-3 cells were seeded in 96-well plates (5×10⁴ cells/100 dl) one day before the assay. Cells were pre-treated with peptides for 1 h before infection. Pseudotyped viral particles were added to cells with the peptides. After 2 h of incubation, the culture supernatant was removed, and cells were washed with EMEM. Cells were further incubated in EMEM containing 10% FBS without peptides and pseudotyped viral particles. At 16 h post-infection, luciferase activity was measured using the Bright-Glo Luciferase Assay System (Promega) and Centro xS960 luminometer (Berthold).

The three peptides #120 (SEQ ID NO: 1), #121 (SEQ ID NO: 2) and #125 (SEQ ID NO: 5) showed strong inhibition of SARS-CoV-2 pseudovirus infection in Calu-3 cells with IC₅₀ values of 0.24, 0.16 and 1.2 μM, respectively. (See FIG. 2) Furthermore, peptides #120 (SEQ ID NO: 1) and #121 (SEQ ID NO: 2) showed a strong inhibition of TMPRSS2-dependent pseudovirus infection through plasma membrane in both Calu-3 cells and VeroE6-TMPRSS2 cells (FIG. 2 and FIG. 3B), but only up to 44% (#120 (SEQ ID NO: 1)) and 38% (#121 (SEQ ID NO: 2)) inhibition against the infection through the endocytosis pathway in VeroE6 cells (FIG. 3A). On the other hand, peptide #125 (SEQ ID: NO: 5) strongly inhibited both the TMPRSS2-dependent plasma membrane pathway in VeroE6-TMPRSS2 cells and the endocytosis pathway in VeroE6 cells with IC₅₀ values of 1.7 μM and 2.4 μM, respectively (FIGS. 3A and 3B).

Example 5 SARS-CoV-2 RNA Quantification Assay

Calu-3 cells were placed at 1×10¹ cells in a 96 well plate. Cells were incubated with SARS-CoV-2 isolated from a patient in Japan (Yamamoto et al., 2020) at a multiplicity of infection (MOI) of 0.01 in the presence of peptides for 30 min. Then, cells were washed with fresh medium and incubated for 24 hours with the peptides. cDNA from total cellular RNA were generated using SuperPrep® II Cell Lysis & RT Kit for qPCR (TOYOBO, Osaka, Japan) according to the manufacturer's instructions. cDNA derived from SARS-CoV-2 viral RNA was measured by real-time polymerase chain reaction (PCR) using the following primers, 5′-AAATTTTGGGGACCAGGAAC-3′ (SEQ ID NO: 6) and 5′-TGGCAGCTGTGTAGGTCAAC-3′ (SEQ ID NO: 7) for GAPDH and 5′-GCACCGTCAAGGCTGAGAAC-3′ (SEQ ID NO: 8) and 5′-TGGTGAAGACGCCAGTGG A-3′ (SEQ ID NO: 9) for SARS-CoV-2 N.

The two peptides (#120 (SEQ ID NO: 1) and #125 (SEQ ID NO: 5)) showed a strong inhibition of SARS-CoV-2 infection in Calu-3 cells with IC₅₀ and IC₉₀ values of 0.03 and 0.51 μM for #120 (SEQ ID NO: 1), and 0.16 and 1.3 μM for #125 (SEQ ID NO: 5) (FIG. 4).

Example 6 Plaque Inhibition Assay

A SARS-CoV-2 plaque inhibition assay was performed using African green monkey kidney Vero E6 cells purchased from the Korean Cell Line Bank (Seoul, Korea). The cells were incubated in 95% air and 5% CO₂ at 37° C. in Dulbecco's modified Eagle's medium (DMEM, Thermo Fisher Scientific, Waltham, Mass., USA) containing 10% fetal bovine serum (FBS, Thermo Fisher Scientific), 25 mM HEPES, 100 U/mL penicillin, and 100 μg/mL streptomycin. SARS-CoV-2 (NCCP No. 43326) was provided by the National Culture Collection for Pathogens (Osong, Korea).

Vero E6 cells (2×10⁵ cells/well) were cultured in 6-well plate at 37° C. in a CO₂ incubator overnight. The cells were washed with phosphate-buffered saline (PBS) and then added SARS-CoV-2 in PBS at MOI 0.01. The plates were incubated for 1 h at 37° C. in a CO₂ incubator and then 2 mL of DMEM containing 2% FBS was added to each well. The plates were incubated at 37° C. in a CO₂ incubator for 3 days. The virus culture supernatants were harvested and centrifuged at 2,000 rpm for 10 min at 4° C. to remove cell debris. The amplified viruses were quantified by plaque assay. Vero E6 cells (7×10⁵ cells/well) were plated in 6-well plates and then cultured until a monolayer was formed at 37° C. in CO₂ incubator. The cells were washed with PBS and infected with 10-fold serial dilutions of the amplified SARS-CoV-2 culture supernatants. After 1 h incubation, the supernatants were removed and the wells were overlaied with 3 mL DMEM/F12 medium (Thermo Fisher Scientific) containing 2% Oxoid agar and N-p-Tosyl-L-phenylalanine chloromethyl ketone (TPCK, 1 μg/mL)-treated trypsin. Plaques were allowed to develop for 3 days at 37° C. Plates were stained with crystal violet (0.1% crystal violet in 20% methanol) for 1 h, prior to enumeration. SARS-CoV-2 amplification and cell culture procedures were performed according to biosafety level 3 (BSL-3) conditions.

To investigate inhibitory activities of peptides against SARS-CoV-2 infection, we performed plaques inhibition assay in Vero E6 cells. At 10 μM concentration, peptides were able to reduce SARS-CoV-2 plaques formation by 15-74%. Among these peptides, #125 (SEQ ID NO: 5) was observed 75% reduction in SARS-CoV-2 plaques formation. #120 (SEQ ID NO: 1) and #121 (SEQ ID NO: 2) peptide showed approximately 15% inhibition of SARS-CoV-2 plaques (FIG. 5A). Treatment with #125 peptide (SEQ ID NO: 5) significantly inhibited the SRAS-CoV-2 plaque formation in a dose-dependent manner. The estimated IC₅₀ values for #125 peptide (SEQ ID NO: 5) was 0.46 μM (FIG. 5B).

Example 7 IC₅₀ Values of Assays

In this experiment, the inhibitory properties of three 39-mer HR2 analogue peptides were studied by different antiviral assay methods. The summary of IC₅₀ values in these assays is provided in Table 5.

TABLE 5 Estimated IC₅₀ Values for Peptides #120 (SEQ ID NO: 1), #121(SEQ ID NO: 2), and #125 (SEQ ID NO: 5) in Antiviral Assays IC₅₀ Assay #120 #121 #125 SARS-CoV-2 Spike-mediated cell-cell fusion 0.75 0.72 4.4 SARS-CoV-2 pseudovirus infection in Calu-3 cells 0.24 0.16 1.2 SARS-CoV-2 pseudovirus infection in VeroE6 >10 >10 2.4 TMPRSS2-dependent plasma membrane pathway in VeroE6-TMPRSS2 <1 <1 1.7 SARS-CoV-2 RNA quantification 0.03 ND 0.16 SARS-CoV-2 plaques inhibition assay ND ND 0.46

The peptide #120 (SEQ ID NO: 1) was able to strongly decrease the viral RNA load with IC₅₀=0.03 μM. The pseudovirus infection was decreased in a dose dependent manner in Calu-3 cells and VeroE6-TMPRSS2, with IC₅₀ values in the low nanomolar range. Despite these strong inhibitory properties in the mentioned assays, #120 (SEQ ID NO: 1) did not produce significant inhibitory properties in SARS-CoV-2 pseudovirus infection in VeroE6 cells as well as in the SARS-CoV-2 plaques inhibition assay. Peptide #121 (SEQ ID NO: 2) produced a profile similar profile to #120 (SEQ ID NO: 1). This indicates strong inhibitory properties of #120 (SEQ ID NO: 1) and 121 (SEQ ID NO: 2) in membrane-mediated virus fusion process and weak effect in blocking the endocytosis pathway.

Peptide #125 (SEQ ID NO: 5) produced favorable inhibition in the range of the used antiviral assays. The peptide was effective in cell-cell fusion and pseudovirus assays in the low micromolar range. Peptide #125 (SEQ ID NO: 5) strongly inhibited the viral RNA with IC₅₀=0.16 μM. More importantly, peptide #125 inhibited the SARS-CoV-2 plaque inhibition assay in the nanomolar range with IC₅₀=0.46 μM. This indicates that peptide #125 (SEQ ID NO: 5) can block both the membrane-dependent or endocytosis-dependent virus entry to the cells.

Based on these assays, the peptides #120 (SEQ ID NO: 1), 121 (SEQ ID NO: 2) and 125 (SEQ ID NO: 5) can be a base for anti-SARS-CoV-2 therapy. Of special interest, peptide #125 (SEQ ID NO:5) inhibited the virus entry in all of the used assays and in different cell types.

It is to be understood that the anti-SARS-CoV-2 fusion peptides are not limited to the specific embodiments described above, but encompass any and all embodiments within the scope of the generic language of the following claims enabled by the embodiments described herein, or otherwise shown in the drawings or described above in terms sufficient to enable one of ordinary skill in the art to make and use the claimed subject matter. 

We claim:
 1. An anti-SARS-CoV-2 fusion peptide comprising a peptide having a 39-mer amino acid sequence comprising the sequence of SEQ ID NO.: 1 and at least one substitution mutation.
 2. The anti-SARS-CoV-2 fusion peptide of claim 1, wherein the peptide comprises 1, 2, 3, 4, 5, or 6 substitution mutations.
 3. The anti-SARS-CoV-2 fusion peptide of claim 1, wherein the peptide has an amino acid sequence selected from the group consisting of SEQ ID NO.: 2, SEQ ID NO.: 3, SEQ ID NO.: 4, and SEQ ID NO.:
 5. 4. The anti-SARS-CoV-2 fusion peptide of claim 3, comprising a peptide having the amino acid sequence of SEQ ID NO:
 2. 5. The anti-SARS-CoV-2 fusion peptide of claim 3, comprising a peptide having the amino acid sequence of SEQ ID NO:
 3. 6. The anti-SARS-CoV-2 fusion peptide of claim 3, comprising a peptide having the amino acid sequence of SEQ ID NO:
 4. 7. The anti-SARS-CoV-2 fusion peptide of claim 3, comprising a peptide having the amino acid sequence of SEQ ID NO:
 5. 8. A method for conducting a SARS-CoV-2 inhibition assay comprising using the anti-SARS-CoV-2 fusion peptide of claim 1 as a standard or as a reference inhibitor.
 9. The method of claim 8, wherein the assay is a cell-cell fusion assay.
 10. The method of claim 8, wherein the peptide comprises the amino acid sequence of at least one of SEQ ID NO.: 2, SEQ ID NO.: 3, SEQ ID NO.: 4, and SEQ ID NO.: 5 and the assay is a SARS-CoV-2 plaque formation assay.
 11. A pharmaceutical composition comprising the anti-SARS-CoV-2 fusion peptide of claim 1 and a pharmaceutically acceptable carrier.
 12. A pharmaceutical composition comprising an expression system encoding at least one peptide comprising an amino acid sequence selected from the group consisting of SEQ ID NO: 2, SEQ ID NO: 3, SEQ ID NO: 4, SEQ ID NO: 5, and a combination of two or more sequences thereof.
 13. The pharmaceutical composition of claim 12, wherein the expression system encodes a peptide comprising the amino acid sequence of SEQ ID NO:
 2. 14. The pharmaceutical composition of claim 12, wherein the expression system encodes a peptide comprising the amino acid sequence of SEQ ID NO:
 3. 15. The pharmaceutical composition of claim 12, wherein the expression system encodes a peptide comprising the amino acid sequence of SEQ ID NO:
 4. 16. The pharmaceutical composition of claim 12, wherein the expression system encodes a peptide comprising the amino acid sequence of SEQ ID NO:
 5. 17. A method of inhibiting or preventing SARS-CoV-2 infection of a cell comprising administering a composition comprising at least one peptide having an amino acid sequence selected from the group consisting of SEQ ID NO: 2, SEQ ID NO: 3, SEQ ID NO: 4, SEQ ID NO: 5, and a combination of two or more sequences thereof to a subject in need thereof.
 18. The method of claim 17, wherein the amino acid sequence comprises SEQ ID NO:
 2. 19. The method of claim 17, wherein the amino acid sequence comprises SEQ ID NO:
 5. 